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<html>
<head><title>The problem of Alzheimer's disease as a clue to immortality - Part 2</title></head>
<body>
<h1>
The problem of Alzheimer's disease as a clue to immortality - Part 2
</h1>
<p>
<strong>V. HORMONE IMBALANCE, LEADING TO FAILURE OF PROTECTIVE INHIBITION AND ALZHEIMER'S DISEASE
</strong>
</p>
<p>
<em>"All cell death is characterized by an increase of intracellular calcium...." "Increase of cytoplasmic
free calcium may therefore be called 'the final common path' of cell disease and cell death. Aging as a
background of diseases is also characterized by an increase of intracellular calcium. Diseases typically
associated with aging include hypertension, arteriosclerosis, diabetes mellitus and dementia."</em>
</p>
<p>
<em>T. Fujita, "Calcium, parathyroids and aging," in Calcium-Regulating Hormones. 1. Role in Disease and
Aging, H. Morii, editor, Contrib. Nephrol. Basel, Karger, 1991, vol. 90, pp. 206-211.
</em>
</p>
<p><strong>THE FUNCTION OF ENERGY</strong></p>
<p>
Most people are slightly demented now and then, when they are very sleepy or tired, or sick, or drunk, or
having a hormone imbalance or extreme anxiety state. Sometimes physicians have described people as demented,
implying that the condition would never improve, when the person was depressed or hypothyroid. If the person
has a history of epilepsy, or is very old, the physician is more likely to diagnose dementia than if the
same loss of mental function occurs in a younger person without a history of a nervous disorder. Even people
with less education are at increased risk of being diagnosed as "demented."
</p>
<p>
In 1976, I saw a 52 year-old woman who had the diagnosis of epileptic dementia. After 3 or 4 days of taking
progesterone, her mental function returned to the extent that she could find her way around town by herself,
and could work. A few months later, she returned to graduate school, got straight As and a master's degree.
A few years later, a man in his 80s showed the classical signs of senile dementia, with childishness,
confusion, self-centeredness, and unstable emotions. A few days after getting a mixture of thyroid,
pregnenolone, and progesterone, his mind was again clear, and he was able to work on a research project he
had set aside years before.
</p>
<p>
When the body temperature is very much below normal, mental functioning is seriously limited. I think the
first question that should be asked about a demented person is "is this the cold brain syndrome, or is
something else involved?" When it is known that the brain has shrunken drastically, and filled up with
plaques and developed gliosis, we know that something more than a "cold brain" is involved, but we don't
know how much function could be regained if the hormones were normalized. Every moment of malfunction
probably leaves its structural mark. Early or late, it is good to prevent the functional errors that lead to
further damage, and to give the regenerative systems an opportunity to work. Before the final "calcium
death" described (above) by Fujita, there are many opportunities for intervening to stop or reverse the
process. The older the person is, the more emphasis should be put on protective inhibition, rather than
immediately increasing energy production. Magnesium, carbon dioxide, sleep, red light, and naloxone might be
appropriate at the beginning of therapy.
</p>
<p>
The resting state of a cell is a highly energized state. To the old Pavlovians, the resting state existed at
two energy levels, and they applied the term "protective inhibition" generally to the depleted state
(parabiosis) that occurs in exhaustion or coma, but I am using the phrase in a more general sense, that
seems reasonable now that the concept of "excitotoxic" injury has become current. I mean it to include
everything which protects against excitotoxic injury. This definition therefore has the virtue of being
biochemically and physiologically very specific, while retaining the functional and therapeutic significance
that it had for the Pavlovians. (My book, <em>Mind and Tissue,</em> and the chapter "A unifying principle"
in <em>
Generative Energy,</em> discussed the idea of the resting state and protective inhibition.)
</p>
<p>
Ordinary healthy sleep is an example of restorative, protective inhibition. The energy charge, including
levels of ATP, creatine phosphate, and glycogen storage, regulates many restorative enzyme systems. I have
suggested (1975, J. Orthomol. Psychiatry) how the entropy-sensitivity or cold-inactivation of an enzyme
could be involved in shifting the brain toward a state of inhibition. A recent publication (J. H. Benington
and H. C. Heller, "Restoration of brain energy metabolism as the function of sleep," Progress in Neurobiol.
45, 347-360, 1995) has proposed that reduction of energy charge and depolarization of cells act through
adenosine secretion to restore glycogen stores. Since glycogen stores decrease with aging, this work
supports the idea that protective inhibition is weakened with aging. (L. N. Simanovskiy and Zh. A. Chotoyev,
"The effect of hypoxia on glycogenolysis and glycolysis rates in the rat brain," Zhurnal Evolyutsionnoy
Biokhimii i Fiziologii 6(5), 577-579, 1970.)
</p>
<p>
J. H. Benington and H. C. Heller, "Restoration of brain energy metabolism as the function of sleep," Prog.
in Neurobiology 45, 347-360, 1995. "...the conditions that have been demonstrated to stimulate adenosine
release from neural tissue represent either increases in metabolic demand (...activation of excitatory
receptors) or decreases in metabolic supply (hypoxia, ischaemia, hypoglycemia)...." "In the brain,
adenosine-stimulated increases in potassium conductance produce hyperpolarization, thereby reducing neuronal
responsiveness...." "Adenosine release is triggered globally in response to changes in cerebral energy
homeostasis." "A number of findings provide indirect support for the hypothesis that glycogen stores are
depleted during waking and restored during sleep." "Reduced availability of glycogen to astrocytes
must...increase adenosine release...." "Because ATP concentration is 100-fold greater than AMP
concentration, a minute decrease in cellular energy charge...is translated into a large proportional
increase in extracellular adenosine cencentration...."
</p>
<p>
The terms "functional quiescence" and "G0 quiescence" are similar in meaning to the resting state; I think
of cells in the state of "G0 quiescence" as being stem cells, waiting for use in regeneration, but I don't
subscribe to the idea that they can't be reconstituted from functioning, differentiated cells. In plants,
dedifferentiation is achieved fairly easily, and in the study of animal cells the trend in that direction
seems very obvious, though many people keep saying that it just isn't possible. In general, the things such
as lipid peroxidation or calcium influx which cause cell replication at one level, cause cell death at a
higher level.
</p>
<p>
Energy to resist stress makes quiescence possible, and prevents the deterioration of cells, of the sort that
occurs in aging. O. Toussaint, et al., "Cellular aging and energetic factors," Exp. Gerontology 30(1), 1-22,
1995. "Experiments performed with endothelial cells in the context of the ischemia-reperfusion toxicity of
free radicals, also offer good examples of the impact of cell energy on cell resistance to these toxic
molecules." "...if a supplement of energy is given...the toxic effect of the free radicals is much
reduced...."
</p>
<p>
The specific approaches of this orientation --to energize but quiet the brain--are diametrically opposed to
some of the "therapies" for Alzheimer's disease that have been promoted recently by the drug industries:
Things to increase stimulation, especially to increase cholinergic excitation; even the excitotoxic amino
acids themselves and their analogs; and estrogen, which is a multiple brain excitant, proconvulsant,
excitotoxic promoter, and anti-memory agent. Those product-centered publications stand out distinctly from
the actual research.
</p>
<p>
There are many energy-related vicious circles associated with aging, but the central one seems to be the
fat-thyroid-estrogen-free-radical-calcium sequence, in which the ability to produce stabilizing substances
including carbon dioxide and progesterone is progressively lost, increasing susceptibility to the unstable
unsaturated fats.
</p>
<p><strong>EFFECTS OF ESTROGEN AND UNSATURATED FATTY ACIDS</strong></p>
<p>
Estrogen production is facilitated when tissue is cooler, and it lowers body temperature. Estrogen and the
endorphins act together in many ways (including the behavior of estrus), and naloxone (the antagonist of
morphine and the endorphins) raises body temperature and in other ways opposes estrogen. Naloxone has been
found to improve the symptoms of demented people, and I have seen it quickly, and dramatically, improve the
mental clarity of a 60 year old woman who had used estrogen. It, like clonidine (the anti-adrenaline drug),
is a good candidate for controlling the hot flashes and other symptoms of menopause.
</p>
<p>
In various degenerative brain conditions, blood clotting has been implicated either as a cause or a
complication. Many people are promoting unsaturated oils for their "anti-clotting" value, in spite of the
older literature showing that they inhibit proteolytic enzymes and slow clot removal. Several newer
publications have revealed other aspects of their involvement in thrombus formation. A. J. Honour, et al.,
"The effects of changes in diet on lipid levels and platelet thrombus formation in living blood vessels,"
Br. J. Expt. Pathol. 59(4), 390-394, 1978--corn oil caused platelets to be more sensitive to ADP.
</p>
<p>
Although there is a lot of talk about "membrane fluidity," as a desirable thing, and the loss of unsaturated
lipids in the aged brain, there are some interesting observations related to "viscosity" in Alzheimer's
disease. The platelets of Alzheimer's patients are less viscous, and lipids extracted from the brain are
more fluid, and contain 30% less cholesterol than normal (on a molar basis, in relation to phospholipids).
(G. S. Roth, et al., 1995.) In general, lipid peroxidation causes cellular viscosity to increase, apparently
by causing cross-linking of proteins, but I think the significance of the decreased cholesterol relates to
its significance as precursor to pregnenolone and progesterone, and to the known association with
Alzheimer's disease of a variant form of the cholesterol transporter protein, ApoE, which I suppose is a
slightly less stable molecular form that is more susceptible to malfunction in stress.
</p>
<p>
The extracellular matrix is a major factor in the function and stability of brain cells. (L. F. Agnati, et
al., "The concept of trophic units in the central nervous system," Prog. in Neurobiol. 46, 561-574, 1995.
Any factor producing edema tends to disrupt the extracellular matrix (Chan and Fishman, 1978, 1980, and L.
Loeb, 1948.)
</p>
<p>
Seizures are known to be promoted by estrogen, by unsaturated fats, and by lipid peroxidation, and to cause
an increase in the size of the free fatty acid pool in the brain. Prolonged seizures cause nerve damage in
certain areas, especially the hippocampus, thalamus, and neocortex (Siesjo, et al., 1989). Dementia is known
to be produced by prolonged seizures.
</p>
<p>
Prenatal exposure to estrogen, to oxygen deficiency, or to unsaturated fats decreases the size of the brain
at birth. There is apparently a requirement for saturated fats during development (J. M. Bourre, N.
Gozlan-Devillierre, O. Morand, and N. Baumann, "Importance of exogenous saturated fatty acids during brain
development and myelination in mice," Ann. Biol. Anim., Biochim., Biophys. 19(1B), 172-180, 1979.
</p>
<p>
Under the influence of estrogen, or unsaturated fats, brain cells swell, and their shape and interactions
are altered. Memory is impaired by an excess of estrogen. Estrogen and unsaturated fat and excess iron kill
cells by lipid peroxidation, and this process is promoted by oxygen deficiency. The fetus and the very old
have high levels of iron in the cells. Estrogen increases iron uptake. Estrogen treatment produces elevation
of free fatty acids in the blood, and lipid peroxidation in tissues. This tends to accelerate the
accumulation of lipofuscin, age-pigment. Lactic acid, the production of which is promoted by estrogen,
lowers the availability of carbon dioxide, leading to impairment of blood supply to the brain.
</p>
<p>
Estrogen stimulates cell division, but can also increase the rate of cell death. Unsaturated fatty acids can
also stimulate or kill.
</p>
<p>
Both estrogen and unsaturated fats promote the formation of age-pigment. Besides increasing the free fatty
acid concentration, estrogen possibly depresses the level of cholesterol, both of which are changes seen in
the senile brain.
</p>
<p>
Estrogen causes massive alterations of extracellular matrix, and seems to promote dissolution of
microtubules (Nemetschek-Gannsler), as calcium does. Unsaturated fats increase calcium uptake by at least
some brain cells (H. Katsuki and S. Okuda, 1995.) Unsaturated fats, like estrogen, increase the permeability
of blood vessels. The unsaturated fat causes edema of the brain, inhibits choline uptake, blocking
acetylcholine production.
</p>
<p>
Progesterone is a nerve growth factor, produced by glial cells (oligodendrocytes). It promotes the
production of myelin, protects against seizures, and protects cells against free radicals. It protects
before conception, during gestation, during growth and puberty, and during aging. It promotes regeneration.
Its production is blocked by stress, lipid peroxidation, and an excess of estrogen and iron.
</p>
<p>
Aspirin protects against iron toxicity, clot formation, and reduces lipid peroxidation while blocking
prostaglandin formation. Aspirin and other antiinflammatory drugs, taken for arthritis, have been clearly
associated with a reduced incidence of Alzheimer's disease. Aspirin reduces the formation of prostaglandins
from arachidonic acid.
</p>
<p>
Unsaturated fatty acids, but not saturated fatty acids, are signals which activate cell systems.
</p>
<p>
Many different stimuli can induce cell activity, cell death, or change to another cell type. (J. Niquet, et
al., "Glial reaction after seizure induced hippocampal lesion: Immunohistochemical characterization of
proliferating glial cells," J. Neurocytol. 23(10), 641-656, 1994: "...hippocampal astrocytes from
kainate-treated rats experess A2B5 immunoreactivity, a marker of type-2 astrocytes." "This suggests that in
the CNS, normal resident astrocytes acquire the phenotypic properties of type-2 astrocytes.")
</p>
<p>
A "deficiency" of polyunsaturated fatty acids leads to altered rates of cellular regeneration and
differentiation, a larger brain at birth, improved function of the immune system, decreased inflammation,
decreased mortality from endotoxin poisoining, lower susceptibility to lipid peroxidation, increased basal
metabolic rate and respiration, increased thyroid function, later puberty and decreases other signs of
estrogen dominance. When dietary PUFA are not available, the body produces a small amount of unsaturated
fatty acid (Mead acids), but these do not activate cell systems in the same way that plant-derived PUFAs do,
and they are the precursors for an entirely different group of prostaglandins.
</p>
<p><strong>VITAMIN A AND THE STEROIDS</strong></p>
<p>
In a variety of cell types, vitamin A functions as an estrogen antagonist, inhibiting cell division and
promoting or maintaining the functioning state. It promotes protein synthesis, regulates lysosomes, and
protects against lipid peroxidation. Just as stress and estrogen-toxicity resemble aging, so does a vitamin
A deficiency. While its known functions are varied, I think the largest use of vitamin A is for the
production of pregnenolone, progesterone, and the other youth-associated steroids. One of vitamin E's
important functions is protecting vitamin A from destructive oxidation. Although little attention has been
given to the effects of unsaturated fats on vitamin A, their destruction of vitamin E will necessarily lead
to the destruction of vitamin A. The increased lipid peroxidation of old age represents a vicious circle, in
which the loss of the antioxidants and vitamin A leads to their further destruction.
</p>
<p>
To produce pregnenolone, thyroid, vitamin A, and cholesterol have to be delivered to the mitochondria in the
right proportion and sufficient quantity. Normally, stress is balanced by increased synthesis of
pregnenolone, which improves the ability to cope with stress. Lipid peroxidation, resulting from the
accumulation of unsaturated fatty acids, iron, and energy deficiency, damages the mitochondrias' ability to
produce pregnenolone. When pregnenolone is inadequate, cortisol is over-produced. When progesterone is
deficient, estrogen's effect is largely unopposed. When both thyroid and progesterone are deficient, even
fat cells synthesize estrogen.
</p>
<p><strong>THE NATURE OF ALZHEIMER'S DISEASE</strong></p>
<p>
Although Alzheimer's disease until recently referred to a certain type of organic dementia occuring in
people in their thirties, forties and fifties (presenile dementia), structural similarities seen in senile
dementia have caused the term to lose its original meaning. Alzheimer's sclerosis of blood vessels, and even
the death of nerve cells, are sometimes neglected in favor of the more stylish ideas, emphasizing certain
proteins that cause the tangles and plaques. Until recently, the "tangles" were commonly interpreted as the
debris left after the death of a cell, rather than as one of the processes causing the death of the cell.
</p>
<p>
Alzheimer-type dementia is different from other dementias, but it overlaps with them, and with age-related
and stress-related changes in other organs.
</p>
<p>
Physical signs (seen at autopsy) of AD:
</p>
<p>
1) Death of neurons (increase of glial cells),
</p>
<p>
2) Amyloid plaques (extracellular), associated with a particular variant of apolipoprotein E, the epsilon 4
allele,
</p>
<p>
3) Fibrillary tangles (intracellular, or remaining after the rest of the cell has disappeared),
</p>
<p>
4) Amyloid in blood vessels.
</p>
<p>
Functional and biochemical observations:
</p>
<p>
1) The mitochondrial energy problem, cytochrome oxidase and its regulation; body temperature/pulse-rate
cycle disturbance; lipid peroxidation; respiratory defect; altered amino acid uptake; memory impairment;
dominance of the excitatory systems vs. the inhibitory adenosine/GABA/progesterone/pregnenolone system.
Increased calcium uptake, which is associated with lipid peroxidation and cell death. Increased cortisol and
DHEA.
</p>
<p>
2) Deposit of abnormal proteins, such as transthyretin-amyloid; albumin binding of PUFA, vs. transport of
thyroid and retinol.<em> </em>
Beta-glucuronidase increases, depositing estrogen in cells.<em> </em>(A. J. Cross, et al., "Cortical
neurochemistry in Alzheimer-type dementia," Chapter 10, pages 153-170 in<em>
Aging of the Brain and Alzheimer's Disease, Prog. in Brain Res. 70, edited by D. F. Swaab, et al.,
Elsevier, N.Y., 1986.</em>)
</p>
<p>
<em>3) </em>
Abnormally phosphorylated (tau) proteins; association with the variant form of Apo E; tau microtubule
organizing proteins, microtubules are involved in transporting cholesterol; phosphorylation, by the kinase
systems, regulated by PUFA; the intermediate filaments are generally stress-associated.
</p>
<p>
4) ApoE, in cytoplasm, involved in cholesterol delivery for pregnenolone synthesis, as in the adrenal; its
expression regulated by thyroid. Regulation of the side-chain cleaving enzymes; regulation of the
cholesterol intake and conversion to pregnenolone by the endozepine receptor/GABA receptor, modified by
progesterone.
</p>
<p><strong>AN EXAMPLE OF A REGULATORY PROBLEM</strong></p>
<p>
Vegetable oil suppresses the thyroid, increasing estrogen. Estrogen and calcium depolymerize microtubules.
Microtubule transport for Apo E, transthyretin, thyroid, and cholesterol for pregnenolone synthesis is
disrupted. Transthyretin and Apo E accumulate unused, and deposit in blood vessels, around nerves, and in
cytoplasm. Pregnenolone and progesterone deficiency (aggravating thyroid deficiency) causes memory loss,
destabilization of nerve cells, failure of myelin formation, and excess cortisol synthesis. Free radicals
and calcium cause multiple cell injuries including nerve-death. Estrogen is released by elevated
beta-glucuronidase. Imbalances of other steroids, including cortisol and DHEA, develop as cells compensate
for pregnenolone deficiency, causing shifts in balance of glial cells. Hypothyroidism, estrogen excess, free
unsaturated fats cause increased vascular permeability and brain edema, protein leakage, and alteration of
the matrix..
</p>
<p>
<strong>VIII: STRUCTURE AS A REGULATORY SYSTEM--AN EMERGING VISION OF PERVASIVE EPIGENESIS</strong>
</p>
<p>
In the introduction I mentioned that membranous regulation and genetic determination should be considered as
defunct theories. What I have been saying about self-actualizing systems and the factors that disrupt them
derives from a view of cell function that has been developing since the 1920s.
</p>
<p>
Around 1940, a Russian biochemist (Oparin, I think) proposed that the enzymes of glycolysis were bound to
the structure of the cell when they were not in use, and that they were "desorbed" under the conditions that
required abundant glycolysis. Knowing that concept, in 1970 I proposed that the cell water itself underwent
a transition under such conditions (which could include increased temperature, reduced oxygen, or nervous or
hormonal stimulation). Activation of glycolysis is usually explained by the availability of regulatory
substances such as ammonia, phosphate, and NAD, and many biochemists were content to understand cells in
terms of test-tube models. But in the last few years, it has become clear that some of these basic
regulatory molecules do bind to structural components of the cell. (T. Henics, "Thoughts over cell biology:
A commentary," Physiol. Chem. Phys. &amp; Med. NMR 27, 139-140, 1995.) Although the details aren't clear, it
is known that hormones and other factors stabilize or destabilize RNA, and that during some of these events
relevant enzymes bind to the RNA. When these facts are combined with the information that is accumulating on
splicing and modification of RNA, and the copying of RNA back into DNA, the hereditary system is seen to be
much more flexible than it was believed to be.
</p>
<p>
A global change of state is able to steer each part of the process, continuously. In this way, the cell
resembles an analog, rather than a digital, control system: each part is momentarily guided, rather than
waiting for "feedback."
</p>
<p>
Where before, cellular "regulatory mechanisms" referred to certain feedback mechanisms based on interactions
of randomly diffusing molecules, the new understanding of the cell sees a highly structured system in which
very little is random, and the cell's adaptive possibilities, instead of being limited to a certain number
of genetic switches, are shaped by every imaginable environmental influence. The cell's structure, far from
being "read out of the genome," is sensitively reshaped constantly by processes that incorporate some of the
environment in establishing each new stability. The old-model-geneticists have been forced to admit that the
genes can't specify everything in the organism's structure, and it was the brain's complexity that forced
this recognition that certain things are developed "epigenetically." But the new fact that most biologists
are reluctant to accept is that the structure of the cell itself is developed very largely on the basis of
information received from the environment--that is, "epigenetically."
</p>
<p>
Traditionally, epigenesis has meant that the form of an embryo or organism didn't preexist, or wasn't
completely specified by the genes. That is, it has had to do with the relationships between cells. It
involved a recognition that "cells are clever enough to design an organism." It is a significant step beyond
that to the recognition that "cells are clever enough to redesign themselves to meet situations never seen
before."
</p>
<p>
Biologists working with bacteria and yeasts have seen them adapt in non-random ways to novel conditions.
"Directed mutations" are impossible, according to the "central dogma" that has the support of textbooks and
most biology professors, but they do occur in those single-celled organisms. Barbara McClintock showed that
in corn her mobile genes were mobilized by stress. Although this isn't exactly "directed mutation," it is an
example of a mechanism for increasing adaptation when adaptation is need. There is a certain type of enzyme
which makes specific cuts in the DNA chain. Biotechnologists find them convenient for their purposes, but
their presence serves physiological purposes, presumably in all organisms, like those described by
McClintock in corn. During the terminal stress that produces the special kind of cell death known as
apoptosis, these enzymes make confetti of the genome.
</p>
<p>
Poisons, such as estrogen, unsaturated fatty acids, or even radiation, produce different effects at
different doses. Low doses typically stimulate cell division, larger doses produce changes of cell type and
altered states of differentiation, and finally, adequate doses produce apoptotic cell death. There is a
special ideology around apoptosis, which holds that it is "genetically programmed," implying that whenever
it occurs in the brain, it was destined to happen sooner or later. But in fact, "growth factors" of various
sorts can prevent it. It is increasingly clear that it represents excessive stress and deficient resources.
The involvement of the genetic apparatus in differentiation and radical adaptation suggests that the
(epigenetic) resources of cells are unlimited.
</p>
<p>
The changes that are known to be produced by the poisons that we are habitually exposed to are exactly the
changes that occur in the aging brain. As I scan over hundreds of studies that define the effects of
estrogen, unsaturated fats, excess iron, and lipid peroxidation, my argument seems commonplace, even
trivial, except that I know that it clearly relates to therapies for most of the degenerative diseases, and
that the great culture-machine is propagating a different view at several points that are essential for my
argument.
</p>
<p>
They are advancing a myth about human nature, so I will advance a counter-myth. At the time people were
growing their large brains they lived in the tropics. I suggest that in this time before the development of
grain-based agriculture, they ate a diet that was relatively free of unsaturated fats and low in iron--based
on tropical fruits. I suggest that the Boskop skull from Mt. Kilimanjaro was representative of people under
those conditions, and that just by our present knowledge of the association of brain size with longevity,
they--as various "Golden Age" myths claim--must have had a very long life-span. As people moved north and
developed new ways of living, their consumption of unsaturated fats increased, their brain size decreased,
and they aged rapidly. Neanderthal relics show that flaxseed was a staple of their diet.
</p>
<p>
Even living in the tropics, there are many possibilities for diets rich in signal-disrupting substances,
including iron, and in high latitudes there are opportunities for reducing our exposure to them. As a source
of protein, milk is uniquely low in its iron content. Potatoes, because of the high quality of their
protein, are probably relatively free of toxic signal-substances. Many tropical fruits, besides having
relatively saturated fats, are also low in iron, and often contain important quantities of amino acids and
proteins. In this context, Jeanne Calment's life-long, daily consumption of chocolate comes to mind: As she
approaches her 121st birthday, she is still eating chocolate, though she has stopped smoking and drinking
wine. The saturated fats in chocolate have been found to block the toxicity of oils rich in linoleic acid,
and its odd proteins seem to have an anabolic action.
</p>
<p>
If we really take seriously even the traditional sort of epigenesis, and especially if we accept the deeper
idea of epigenesis on the level of cellular structure and function, we have to see the organism as a sort of
"whirlwind of cells," made up of whirlwinds of atoms (in Vernadsky's phrase) in which our way of life sets
the boundaries within which our cells will restructure themselves.
</p>
<p>
The random production of free radicals, rather than acting only by way of genetic damage or protein
cross-linking, is also able to act as a signalling process, that is, on a strictly physiological level. An
excess of unsaturated fatty acids itself constitutes a massive distortion of the regulatory systems, but it
also leads to distortions in the "eicosanoid" system and the increasingly uncontrolled production of free
radicals, and to changes in energy, thyroid activity, and steroid balance. The aging body, rather than being
like a car that needs more and more repairs until it collapses from simple wear, is more like a car
traveling a road that becomes increasingly rough and muddy, until the road becomes an impassable swamp.
</p>
<p>
The suggested therapy is a correction of the signalling process, rather than "genetic surgery,"
transplantation, etc., which is the pessimistic implication of the doctrine that oxidative damage is simply
a matter of "wear and tear," "somatic mutations," and "cross-linking." Those problems are reparable, and our
emphasis should be on the production of energy and the avoidance of the conditions that allow the
undesirable signals to accumulate.
</p>
<p>
The absence of cancer on a diet lacking unsaturated fats, the increased rate of metabolism, decreased free
radical production, resistance to stress and poisoning by iron, alcohol, endotoxin, alloxan and
streptozotocin, etc., improvement of brain structure and function, decreased susceptibility to blood clots,
and lack of obesity and age pigment on a diet using coconut oil rather than unsaturated fats, indicates that
something very simple can be done to reduce the suffering from the major degenerative diseases, and that it
is very likely acting by reducing the aging process itself at its physiological core.
</p>
<p>
Copyright: Raymond Peat, PhD 1997
</p>
<p>
PO Box 5764 Eugene, OR 97405
</p>
<p>
<h3>SELECTED REFERENCES</h3>
</p>
<p>
Winfried G. Rossmanith, "Gonadotropin secretion during aging in women: Review article," Exp. Gerontology
30(3/4) 369-381, 1995. "...major functional derangements, primarily at a hypothalamic rather than a
pituitary site, have been determined as concomitants of aging in women." "...aging may impair the negative
feedback sensitivity to ovarian sex steroids...." Hormonal changes at menopause "may represent the sum of
functional aberrations that were initiated much earlier in life...." "...prolonged estrogen exposure
facilitates the loss of hypothalamic neurons...."
</p>
<p>
J. R. Brawer, et al., "Ovary-dependent degeneration in the hypothalamic arcuate nucleus," Endocrinology 107,
274-279, 1980.
</p>
<p>
G. C. Desjardins, "Estrogen-induced hypothalamic beta-endorphin neuron loss: A possible model of
hypothalamic aging," Exp. Gerontology 30(3/4), 253-267, 1995. "This loss of opioid neurons is prevented by
treatment with antioxidants indicating that it results from estradiol-induced formation of free radicals."
"...this beta-endorphin cell loss is followed by a compensatory upregulation of mu opioid receptors in the
vicinity of LHRH cell bodies." Resulting supersensitivity of the cells results "in chronic opioid
suppression of the pattern of LHRH release, and subsequently that of LH." The neurotoxic effects of
estradiol cause a "cascade of neuroendocrine aberrations resulting in anovulatory acyclicity." Treatment
with an opiod antagonist "reversed the cystic morphology of ovaries and restored normal ovarian cycles" in
estrogen-treated rats.
</p>
<p>
G. B. Melis, et al., "Evidence that estrogens inhibit LH secretion through opioids in postmenopausal women
using naloxone," Neuroendocrinology 39, 60-63, 1984.
</p>
<p>
H. J. Sipe, et al., "The metabolism of 17 beta-estradiol by lactoperoxidase: A possible source of oxidative
stress in breast cancer," Carcinogenesis 15(11), 2637-2643, 1994. "...molecular oxygen is consumed by a
sequence of reactions initiated by the glutathione thiyl radical. ...the estradiol phenoxyl radical
abstracts hydrogen from...NADH to generate the NAD radical." "...the futile metabolism of micromolar
quantities of estradiol catalyzes the oxidation of much greater concentrations of biochemical reducing
cofactors, such as glutathione and NADH, with hydrogen peroxide produced as a consequence."
</p>
<p>
S. Santagati, et al., "Estrogen receptor is expressed in different types of glial cells in culture," J.
Neurochem. 63(6), 2058-2064, 1994. "...in all three types of glial cell analyzed in almost equal amounts..."
</p>
<p>
D. X. Liu and L. P. Li, "Prostaglandin F-2 alpha rises in response to hydroxyl radical generated in vivo,"
Free Radical Biol. Med. 18(3), 571-576, 1995. "Free radicals and some free fatty acids, such as arachidonic
acid metabolites...may form a feedback loop in which generation of one type leads to formation of the
other." "Prostaglandin F-2 alpha dramatically increased in response to hydroxyl radical generation...."
</p>
<p>
J. Owens and P. A. Schwartzkroin, "Suppression of evoked IPSPs by arachidonic acid and prostaglandin F-2
alpha," Brain Res. 691(1-2), 223-228, 1995. "These findings suggest that high levels of AA and its
metabolites may bias neurons towards excitation."
</p>
<p>
E. A. Quail and G. C. T. Yeoh, "The effect of iron status on glyceraldehyde 3-phosphate dehydrogenase
expression in rat liver," FEBS Lett. 359(2-3), 126-128, 1995. "...the overexpression of GAPDH mRNA in iron
deficiency is probably due to increased message stability." [This is one of the points discussed by Henics.
Estrogen, which increases iron retention, also modifies mRNA stability.]
</p>
<p>
J. G. Liehr, et al., "4-hydroxylation of estradiol by human uterine myometrium and myoma microsomes:
Implications for the mechanism of uterine tumorigenesis," Proc Natl Acad Sci USA 92(20), 9220-9224, 1995.
"... elicits biological activities distinct from estradiol, most notably an oxidant stress response induced
by free radicals generated by metabolic redox cycling reactions."
</p>
<p>
J. G. Liehr and D. Roy, "Free radical generation by redox cycling of estrogens," Free Rad. Biol. Med. 8,
415-423, 1990.
</p>
<p>
P. Aschheim, "Resultats fournis par la greffe heterochrone des ovaires dan l'etude de la regulation
hypothalamo-hypophyso-ovarienne de la ratte senile," Gerontologia 10, 65-75, 1964/65. "Our last experiment,
grafting ovaries...into senile rats which had been castrated (ovariectomized) when young, and its result,
the appearance of estrous cycles, seems explicable by this hypothesis. Everything happens as if the long
absence of ovarian hormones... had kept the cells of the hypothalamus in the state of youth. It's as if the
messages of the circulating steroids fatigued the hypothalamic memory." "What are the factors that cause
this diminution of the hypothalamic sensitivity...? Kennedy incriminates a decrease in the cellular
metabolism in general...."
</p>
<p>
P. Ascheim, "Aging in the hypothalamic-hypophyseal ovarian axis in the rat," pp. 376-418 in: A. V. Everitt
and J. A. Burgess, editors, Hypothalamus, Pituitary and Aging, C&gt;C&gt; Thomas, Springfield, 1976.
</p>
<p>
Gross, "Reproductive cycle biochemistry," Fertility &amp; Sterility 12(3), 245-260, 1961. "The maintenance
of an environment conducive to anaerobic metabolism--which may involve the maintenance of an adequate supply
of the substances that permit anaerobiosis...seems to depend primarily upon the action of estrogen."
"Glycolytic metabolism gradually increases throughout the proliferative phases of the cycle, reaching a
maximum coincident with the ovulation phase, when estrogen is at a peak. Following this, glycolysis
decreases, the respiratory mechanisms being more active during the secretory phase. Eschbach and Negelein
showed the metabolism of the infantile mouse uterus to be less anaerobic than that of the adult. If estrogen
is administered, however, there is a 98 per cent increase in glycolytic mechanisms.""The effect of the
progestational steroids may be such as to interfere with the biochemical pattern required for support of
this anaerobic environment."
</p>
<p>
C. S. Bangur, J. L. Howland, S. S. Katyare, "Thyroid hormone treatment alters phospholipid composition and
membrane fluidity of rat brain mitochondria," Biochem. J. 305(1), 29-32, 1995. (Increases fluidity.)
</p>
<p>
R. S. Sohal, et al., "Mitochondrial superoxide and hydrogen peroxide generation, protein oxidative damage,
and longevity in different species of flies," Free Rad. Biol. &amp; Med. 19(4), 499-504, 1995. Cytochrome C
oxidase protects against free radical damage. This enzyme depends on thyroid and light.
</p>
<p>
D. L. Williams, et al., "Cell surface 'blanket' of apolipoprotein E on rat adrenocortical cells," J. Lipid
Res. 36(4), 745-758, 1995. "...the zona fasciculata cell is encircled or covered with apoE on all faces of
the cell. ...this cell surface 'blanket' of apoE participates in the uptake of lipoprotein cholesterol by
either the endocytic or selective uptake pathways."
</p>
<p>
C. A. Frye and J. D. Sturgis, "Neurosteroids affect spatial reference, working, and long-term memory of
female rats," Neurobiol. Learn. Memory 64(1), 83-96, 1995. [Female rats take longer to acquire a spatial
task during behavioral estrus.] M. Warner and J. A. Gustafsson, "Cytochrome P450 in the brain:
Neuroendocrine functions," Front Neuroendocrinol 16(3), 224-236, 1995. [Discusses the GABA(A) receptor
active steroids, and the accumulation of pregnenolone in the brain.]
</p>
<p>
P. Robel, et al., "Biosynthesis and assay of neurosteroids in rats and mice: Functional correlates," J.
Steroid Biochem. Mol. Biol. 53(1-6), 355-360, 1995. [Discusses the effects of pregnenolone and progesterone
on aggression and learning. The animals which learned most easily had the highest levels of pregnenolone
sulfate.]
</p>
<p>
J. R. Pasqualini, et al., "Effect of the progestagen promegestone (R-5020) on mRNA of the oestrone
sulphatase in the MCF-7 human mammary cancer cells," Anticancer Res. 14(4A), 1589-1593, 1994. Progestagen
decreases estrogen sulfatase in mammary cancers. [Sulfatase, like beta-glucuronidase, causes active estrogen
to be released.]
</p>
<p>
W. J. Trooster, et al., "Treatment of acute experimental allergic encephalomyelitis in the Lewis rat with
the sex hormone progesterone," Int. J. Immunopathol. Pharmacol. 7(3), 183-192, 1994. "...we suggest that
treatment with progesterone protected against the histological signs of EAE through a peripheral immune
mechanism."
</p>
<p>
H. L. Koenig, et al., "Progesterone synthesis and myelin formation by Schwann cells," Science (268),
1500-1503, 1995. "The high concentrations of progesterone in intact adult nerves also indicate a role for
this neurosteroid in the slow but continuous renewal of peripheral myelin."
</p>
<p>
N. C. Lan and K. W. Gee, "Neuroactive steroid actions at the GABA(A) receptor," Horm. Behav. 28(4), 537-544,
1994. Neuroactive steroids "...do not interact with any of the classical cytosolic hormonal steroid
receptors." "The interaction of neuroactive steroids with GABA(A) receptor is specific to a site on the
receptor complex distinct from the benzodiazepine and barbiturate modulatory sites."
</p>
<p>
J. F. FierroRenoy, et al., "Three different thyroid hormone receptor isoforms are detected in a pure culture
of ovine oligodendrocytes," Glia 14(4), 322-328, 1995. "Our results demonstrate that differentiated
oligodendrocytes express alpha-1 and alpha-2 variant and beta-1 isoforms of TH at the protein level and
support the notion of a direct impact of thyroid hormones on oligodendrocytes in their regulation of myelin
synthesis."
</p>
<p>
J. Masse, "Nutrition, thyroid hormones, body temperature, and mortality of elderly patients with acute
illnesses," Am. J. Clin. Nutr. 62(3), 647-648, 1995.
</p>
<p>
E. J. Masoro, "Dietary restriction," Exp. Gerontology 30(3/4), 291-298, 1995. "These antiaging actions
result from a reduction of energy intake by the animal but are not due to a decrease in metabolic rate per
unit of lean body mass." [The slowed rate of aging is associated with increased metabolic rate--as if
metabolic inhibitors accumulate at a slower rate.]
</p>
<p>
D. L. Cheney, et al., "Pregnenolone sulfate antagonizes dizocilpine amnesia: Role for allopregnanolone,"
Neuroreport 6(12), 1697-1700, 1995. "We and others have shown that allopregnanolone potently modulate
GABA(A) receptor function whereas 5 alpha-dihydroprogesterone fails to induce rapid changes...."
</p>
<p>
B. S. McEwen and E. Gould, "Adrenal steroid influences on the survival of hippocampal neurons," Biochem.
Pharmacol 40, 2393-2402, 1990.
</p>
<p>
P. W. Landfield, et al., "Hippocampal aging and adrenocorticoids: Quantitative correlations," Science
202(8), 1098-1101, 1978.
</p>
<p>
A. M. Dudchenko, et al., "Effect of corticosterone on the macroergic pool and membrane permeability in
sections of rat hippocampus," Bull. Exp. Biol. &amp; Med. 116(12), 1505-1508, 1993. "...the hippocampus is
one of the most vulnerable brain structures...." "...a reduction of the oxygen content...causes a sharp
increase of membrane permeability, which is...in line with the trend toward a decrease of the macroergic
[energy] content (especially creatine phosphate and ATP content) in the hippocampal cells." "The death of
hippocampal neurons, triggered...by hyperactivation of the glutamate receptors, is accelerated in the
presence of" glucocorticoids, while these hormones may be protective against oxygen deficit, by increasing
the availability of glucose, and possibly of amino acids.
</p>
<p>
M. J. Meaney, et al., "Individual differences in hypothalamic-pituitary-adrenal activity in later life and
hippocampal aging," Exp. Gerontology 30(3/4), 229-251, 1995. "...glucocorticoids...both increase the toxic
glutamate signal and decrease the metabolic capacity of neurons to survive." (Glucose is protective.) "Our
current foxus is on the potential role of progesterone as a modulator of glucocorticoid action."
</p>
<p>
P. Sheng, et al., "Methamphetamine causes reactive gliosis in vitro: Attenuation by the ADP-ribosylation
inhibitor, benzamide," Life Sciences 55(3), 51-54, 1994
</p>
<p>
N. S. Verkhratsky, "Limbic control of endocrine glands in aged rats," Exp. Gerontology 30(3/4, 415-421,
1995. Aging causes "degeneration of pyramidal cells in the hippocampus of humans..., accumulation of
lipofuscin...,a decrease in the excitability of amygdala medial nuclei and an increased excitability of its
central nuclei..., and a deterioration of their vascularization." "...stimulation of hippocampus inhibits
ACTH secretion...and causes a decrease of plasma corticosteroids...."
</p>
<p>
R. M. Sapolsky, et al., "Prolonged glucocorticoid exposure reduces hippocampal neuron number: Implications
for aging," J. Neurosci. 5 1221, 1985.
</p>
<p>
J. L. W. Yau, Mol. Brain Res. 27(1), 174-178, 1994. "Glucocorticoid excess is associated with hippocampal
neuronal dysfunction and loss, mainly affecting CA1."
</p>
<p>
B. Nasman, et al., "A subtle disturbance in the feedback regulation of the hypothalamic-pituitary-adrenal
axis in the early phase of Alzheimer's disease," Psychoneuroendocrinology 20(20, 211-220, 1995. "After 0.5
mg dexamethasone, serum cortisol levels were significantly less suppressed...."
</p>
<p>
C. Mondadori, "In search of the mechanism of action of the nootropics: New insights and potential clinical
implications," Life Sci. 55(25-26), 2171-2178, 1994. "...the fact that high levels of corticosteroids
suppress the effects of the nootropics could also have clinical implications: in the light of the
observation that the majority of Alzheimer patients have elevated steroid levels it could explain why there
is always only a small proportion of patients...that respond to treatment with nootropics."
</p>
<p>
J. M. Pasquini and A. M. Adamo, "Thyroid hormones and the central nervous system," Dev. Neurosci. 12(1-2),
1-8, 1994. "Among their actions, T3 and T4 have effects on the differentiation of various cell types in the
rat brain and cerebellum as well as on the process of myelination. Recently, several investigators have
shown effects of thyroid hormones on myelin protein gene expression."
</p>
<p>
M. Martinez, et al., "Glucose deprivation increases aspartic acid release from synaptosomes of aged mice,"
Brain Res. 673(1), 149-152, 1995. "...in the absence of glucose in the medium of incubation aspartate and
glutamate release was higher in old than in young animals." "...there is an age-dependent dysfunction in
this process linked to energy metabolism disturbance."
</p>
<p>
P. Corbisier, et al., "Bioenergetics of mitochondria determine cell survival in stressful conditions," Prog.
in Cell Res. (5), 237-241, 1995. "...the growth rate of young or old cells injected with coupled
mitochondria...was not statistically different."
</p>
<p>
G. Paradies, et al., "Molecular basis of the age-dependent decrease in the cytochrome oxidase activity in
rat heart mitochondria," Prog. in Cell Res. 5, 243-247, 1995. The activity of cytochrome oxidase "was
markedly decreased with aging. This decrease was associated with a parallel decrease in the mitochondrial
respiratory activity." "Cardiolipin content was significantly reduced in mitochondrial membrane from aged
rats."
</p>
<p>
G. C. Ness and Z. H. Zhao, "Thyroid hormone rapidly induces hepatic LDL receptor mRNA levels in
hypophysectomized rats," Arch. Biochem. Biophys. 315(1), 199-202, 1994.
</p>
<p>
E. M. Mutisya, et al., "Cortical cytochrome oxidase activity is reduced in Alzheimer's disease," J.
Neurochem. 63(6), 2170-2184, 1994. "These results provide further evidence of a cytochrome oxidase defect in
Alzheimer's disease postmortem brain tissue. A deficiency in this key energy-metabolizing enzyme could lead
to a reduction in energy stores and thereby contribute to the neurodegenerative process."
</p>
<p>
G. J. Bu, et al., "Subcellular localization and endocytic function of low density lipoprotein
receptor-related protein in human glioblastoma cells," J. Biol. Chem. 269(47), 29874-29882, 1994. "Our
results thus strongly suggest several potential roles for LRP in brain protein and lipoprotein metabolism,
as well as control of extracellular protease activity."
</p>
<p>
V. Vandenbrouck, et al., "The modulation of apolipoprotein E gene expression by 3,3'-5-triiodothyronine in
HepG(2) cells occurs at transcriptional and post-transcriptional levels," Eur. J. Biochem. 224(2), 463-471,
1994. "...thyroid hormone stimulated apoE gene transcription threefold in 24 hours."
</p>
<p>
M. J. Ignatius, et al. "Expression of apolipoprotein-E during nerve degeneration and regeneration," Proc.
Natl. Acad. Sci. (USA) 83, 1125-1129, 1986.
</p>
<p>
B. T. Stokes, et al., "Energy depletion, calcium and the cytoskeleton: A model for trophic intervention,"
pp. 279-292, in Trophic Factors and the Nervous System, L. A. Horrocks, et al., editors, Raven Press, NY,
1990. "Injury to neuronal cells is associated with a decline in high energy phosphates, a loss of cation
homeostasis, and possibly, an increase in reactive oxygen radicals." "Virtually all components of the
cytoskeleton are either directly or indirectly affected by alterations in calcium metabolism."
"...calcium-activated proteases may also specifically modulate components of the cytoskeleton." "...ATP
depletion itself may directly alter the structural components of the neuronal cytoskeleton." "...major
neurodegenerative diseases such as Alzheimer's, Parkinsonian syndrome, amyotrophic lateral sclerosis...are
also characterized by changes in the neuronal cytoskeleton."
</p>
<p>
T. Gunther, et al., "Effects of magnesium and iron on lipid peroxidation in cultured hepatocytes," Mol. Cell
Biochem. 144(2), 141-145, 1995. (Magnesium protects against iron.)
</p>
<p>
K. D. Croft, et al., "Oxidation of low-density lipoproteins: Effect of antioxidant content, fatty acid
composition and intrinsic phospholipase activity on susceptibility to metal ion-induced oxidation,"
BBA-Lipid Lipid Metab. 1254(3), 250-256, 1995.
</p>
<p>
J. H. Choi and B. P. Yu, "Brain synaptosomal aging: Free radicals and membrane fluidity," Free Radical Biol.
Med. 18(2), 133-139, 1995 ("...fluidity loss may be influenced by factors other than cholesterol. We suggest
that lipid peroxidation may be a major factor in the change in fluidity during the aging process.")
</p>
<p>
J. H. Choi and B. P. Yu, "Modification of age-related alterations of iron, ferritin, and lipid peroxidation
in rat serum," Age 17(3), 93-97, 1994.
</p>
<p>
E. Chiarpotto, et al., "Metabolism of 4-hydroxy-2-nonenal and aging," Biochem. Biophys. Res. Commun. 297(2),
477-484, 1995. (Accumulation of unsaturated fat breakdown product in old animals.)
</p>
<p>
H. J. Sipe, et al., "The metabolism of beta-estradiol by lactoperoxidase: A possible source of oxidative
stress in breast cancer," Carcinogenesis 15(11), 2637-2643, 1994.
</p>
<p>
M. J. Endresen, et al., "Effects of free fatty acids found increased in women who develop pre-eclampsia on
the ability of endothelial cells to produce prostacyclin, cGMP and inhibit platelet aggregation," Scan. J.
Clin. Lab. Invest. 54(7), 549-557, 1994<em>.</em> "...levels of circulating free fatty acids are increased
in women who later develop pre-eclampsia long before the clinical onset of the disease." "...linoleic acid
reduced the thrombin-stimulated prostacyclin release by 30-60%, oleic acid by 10-30%, wheras palmitic acid
had no effect." "Linoleic acid reduced the endothelial cells" ability to inhibit platelet aggregation by
10-45%...."
</p>
<p>
L. A. Norris and J. Bonnar, "Effect of oestrogen dose on whole blood platelet activation in women taking new
low dose oral contraceptives," Thromb. Haemost. 72(6), 926-930, 1994: "Increased levels of ADP and
arachidonic acid-induced aggregation were observed in women taking the 30 microgram ethinyloestradiol
combination. Platelet release of beta-thromboglobulin (beta TG) was also significantly increased. Increased
collagen-induced aggregation was observed but this failed to reach statistical significance for the
individual treatment groups.") Estrogen dominance is an essential factor in preeclampsia. Women who have
died of (eclamptic) convulsions have been found to have massive clots in their brain blood vessels. Much of
this work had its origin in the 1930s (Shute and others), and was buried by the power of the estrogen
industry.
</p>
<p>
H. Darmani, et al., "Interferon-gamma and polyunsaturated fatty acids increase the binding of
lipopolysaccharide to macrophages," Int. J. Exp. Pathol. 75(5), 363-368, 1994.
</p>
<p>
G. Autore, et al., "Essential fatty acid-deficient diet modifies PAF levels in stomach and duodenum of
endotoxin-treated rats," J. Lipid Mediators Cell Signalling 9, 145-153, 1994. Deficiency of "essential" fats
decreases damage from endotoxin.
</p>
<p>
N. Auge, et al., "Proliferative and cytotoxic effects of mildly oxidized low-density lipoproteins on
vascular smooth-muscle cells," Biochem. J. 309(Part 3), 1015-1020, 1995. "The proliferative effect on
smooth-muscle cells is counterbalanced at high concentrations of mildly oxidized LDLs (or at high oxidation
levels) by their cytotoxic effect."
</p>
<p>
S. K. Clinton, et al., "The combined effects of dietary fat and estrogen on survival, 7,12-dimethyl-
benz(a)-anthracene-induced breast cancer and prolactin metabolism in rats," J. Nutr. 125(5), 1192-1204,
1995. "Mortality in controls was doubled by feeding a high fat diet...." "...the presence of estrogen may be
a prerequisite for significant dietary modulation."
</p>
<p>
R. Sanchez Olea, et al., "Inhibition by polyunsaturated fatty acids of cell volume regulation and osmolyte
fluxes in astrocytes," Amer. J. of Physiology--cell physiology 38(1), C96-C102, 1995. "...potent blockers of
regulatory volume decrease and of the swelling-activated efflux of taurine, D-aspartate, inositol, and I-125
(used as marker of Cl). ...oleic and ricinoleic acids and saturated fatty acids were ineffective."
"...polyunsaturated fatty acids directly inhibit the permeability pathways correcting cell volume after
swelling in cultured astrocytes."
</p>
<p>
M. E. Miller, et al., "Influence of hormones on platelet intracellular calcium," Thrombosis Research 77(6),
515-530, 1995. "Platelet intracellular calcium concentration and release was significantly decreased in
women ingesting tamoxifen compared to controls and significantly increased, as was platelet adhesion, in
oral contraceptive users." "Only oral contraceptive users had increased sensitivity to aggregating agents.
(...platelet calcium levels are closely related to the degree of platelet adhesion and aggregation in vivo."
</p>
<p>
F. Mercure and G. Vanderkraak, "Inhibition of gonadotropin-stimulated ovarian steroid production by PUFA in
teleost fish," Lipids 30(6), 547-554, 1995. "EPA and DHA inhibited gonadotropin-stimulated testosterone
production in a dose-related manner...."
</p>
<p>
A A Farooqui, K Wells, L A Horrocks, "Breakdown of membrane phospholipids in Alzheimer disease--involvement
of excitatory amino acid receptors," Mol Chem Neuropathol 25(2-3) 155-173, 1995. "The release of
arachidonate from the sn-2 position of glycerophospholipids is catalyzed by phospholipases and lipases.
These enzymes are coupled to EAA receptors. Overstimulation of these receptors may be involved in abnormal
calcium homeostasis, degradation of membrane phospholipids, and the accumulation of free fatty acids,
prostaglandins, and lipid peroxides. Accumulation of the mentioned metabolites, as well as abnormalities in
signal transduction owing to stimulation of lipases and phospholipases, may be involved in the pathogenesis
of the neurodegeneration in AD."
</p>
<p>
Leo Loeb, V. Suntzeff, and E. L. Burns, "Changes in the nature of the stroma in vagina, cervix and uterus of
the mouse produced by long-continued injections of estrogen and by advancing age," The American Journal of
Cancer 35(2), 159-174, 1939. Loeb, et al., speak of collagenous deposits as fibrous-hyaline tissue, varying
from a fibrillar to a homogeneous appearance, and varying in consistency from very dense and glassy in
appearance, to the softer gelatinous substance between cells and around arteries and glands. This material
increases with aging and eventually appears between cells in the muscular part of the uterus. With the
injection of moderate amounts of estrogen, the quantity of the material is increased. When large amounts of
estrogen are injected, "The connective tissue and muscle appear rarefied, almost as though they were
perforated by a large number of small holes." "...this condition is presumably due to a deposit of a mixture
of hyaline material and edematous fluid...." "This process of hyalinization...is counteracted by invasion by
connective tissue." In this way there may take place in many areas a substitution and organization of the
hyaline material by connective tissue, in which dilated capillaries may also be visible." "There is a second
process which in many cases accompanies the invasion and organization of hyaline substance by connective
tissue, namely a formation, at the margin of the hyaline material, of epithelioid and of small giant cells
possessing more than one nucleus." "As a rule, the epithelioid cells are seen alone; giant cells are more
rare." "...the connective-tissue fibrils may in places appear somewhat separated, perhaps by edematous
fluid." "The first changes consist very likely in the transudation of fluid from the vessels into the
connective tissue." "It seems, then, that at a very early stage after the beginning of the injections of
effective doses of estrogen, a liquid substance which separates the connective-tissue elements makes its
appearance, and that this represents one of the earliest changes induced by the hormone. It may be
accompanied, or soon followed, by the deposit of a hyaline substance which occurs first between the
connective-tissue cells, but may extend also to the muscle fibers." "...the deposit of hyaline which
progressively becomes more and more devoid of connective-tissue cells and blood vessels, is so marked that
the material acts like a foreign body...." "While it may be found also around blood vessels, such deposits
are less conspicuous than in other organs in mice, such as the mammary gland.... There is a tendency for the
hyaline substance to form sheaths around various organs and it is more prominent at the border separating
different tissues and organs." "In its appearance and in the foreign body reactions which it initiates this
substance somewhat resembles amyloid, which is readily produced in mice in various groups. The application
of stains differentiating amyloid from other hyaline material, however, gave negative results."
</p>
<p>
Leo Loeb, V. Suntzeff, and E. L. Burns, "The effects of age and estrogen on the stroma of vagina, cervix and
uterus in the mouse," Science 88(22, Nov. 4), 1938. "...large amounts of a hyaline substance are deposited,
which act as foreign bodies and cause the formation of epithelioid and giant cells and an ingrowth of
connective tissue. Thus an organization of this substance is attempted, which is interrupted, however, by
renewed deposition of this hyaline material." "No definite statement can be made at present as to the
chemical nature of this substance and its possible relation to a plasma constituent, except that it is not
amyloid." "...a very intense fibrosis and hyalinization of the stroma which may induce abnormal reactions in
the surrounding tissue. In this way it seems to be possible to accelerate and intensify very much some of
the old age changes in certain organs."
</p>
<p>
P. H. Chan and R. A. Fishman, "Brain edema: Induction in cortical slices by polyunsaturated fatty acids,"
Science 201, 358-369, 1978. "This cellular edema was specific, since neither saturated fatty acids nor a
fatty acid containing a single double bond had such effect."
</p>
<p>
C. LarssonBackstrom, et al., "Effects of dietary alpha- and gamma-linolenic acids on liver fatty acids,
lipid metabolism, and survival in sepsis," Shock 4(1), 11-20, 1995. "Dietary GLA reduced survival from
sepsis."
</p>
<p>
D. Chemla, et al., "Influence of dietary polyunsaturated fatty acids on contractility, inotropy and
compliance of isolated rat myocardium, J mol Cell Cardiol 27(8), 1745-1755, 1995. "There was a trend towards
a lower peak lengthening velocity at preload in the LC (n-3) group...together with an unchanged peak rate of
isometric force decline. This resulted in a significant impairment of the two mechanical indexes testing the
load dependence of myocardial relaxation." See B. Pieske, Circul. 92(5), 1169-78
</p>
<p>
R. Lerner, et al., "Development and characterization of essential fatty acid deficiency in human endothelial
cells in culture," Proc Natl Acad Sci USA 92(4), 1147-1151, 1995. Oleic acid derivative
5,8,11-eicosatrienoic acid (20:3 omega 9) (5,8,11,14,17 eicosapentaenoic, 20-5 omega 3)); 20:3 omega 9
impaired the Ca2(i) response, indicating a suppressive effect of it. (Agonist-induced increases in
concentrations of prostacycline PGI 2, and cytosolic Ca2+ were reduced in efad cells.)
</p>
<p>
K. Imaizumi, et al., "Dissociation of protein kinase C activities and diacylglycerol levels in liver plasma
membranes of rats on coconut oil and safflower oil diets," J. Nutr Biochem 6(10), 528-533, 1995. "The
activation of PKC is affected differently in vitro by different fatty acids." "Rats on coconut oil...had a
markedly lower PKC activity in liver plasma membranes with slight but significant reduction of the activity
in the cytosol than did rats fed safflower oil...." "...coconut oil resulted in a higher content of
diacylglycerols in these membranes than did ingestion of safflower oil, whereas the proportions of saturated
fatty acids and phospholipids and membrane fluidity were similar between rats ingesting different fats." "It
seems likely that saturated fats exert various physiological effects on lipid and lipoprotein metabolism, in
part through PKC pathways."
</p>
<p>
V. Boutard, et al., "Fish oil supplementation and essential fatty acid deficiency reduce nitric oxide
synthesis by rat macrophages," Kidney Int. 46(5), 1280-1286, 1994. "Both...have been shown to exert
anti-inflammatory effects...."
</p>
<p>
A A Farooqui, K Wells, L A Horrocks, "Breakdown of membrane phospholipids in Alzheimer disease--involvement
of excitatory amino acid receptors," Mol Chem Neuropathol 25(2-3) 155-173, 1995. "The release of
arachidonate from the sn-2 position of glycerophospholipids is catalyzed by phospholipases and lipases.
These enzymes are coupled to EAA receptors. Overstimulation of these receptors may be involved in abnormal
calcium homeostasis, degradation of membrane phospholipids, and the accumulation of free fatty acids,
prostaglandins, and lipid peroxides. Accumulation of the mentioned metabolites, as well as abnormalities in
signal transduction owing to stimulation of lipases and phospholipases, may be involved in the pathogenesis
of the neurodegeneration in AD."
</p>
<p>
P. H. Chan and R. A. Fishman, "Transient formation of superoxide radicals in polyunsaturated fatty
acid-induced brain swelling," J. of Neurochemistry 35, 1004-1007, 1980.
</p>
<p>
J. S. Jensen, et al., "Microalbuminuria reflects a generalized transvascular albumin leakiness in clinically
healthy subjects," Clin Sci 88(6), 629-633, 1995. "In epidemiological studies microalbuminuria, i.e.,
slightly elevated urinary albumin excretion rate, predicts increased atherosclerotic vascular morbidity and
mortality." "In animal experiments the outflux of albumin and lipids to the arterial wall are highly
correlated, and both are elevated in atherosclerosis." "...microalbuminuria is an independent marker of
systemic transvascular albumin leakiness in clinically healthy subjects."
</p>
<p>
H. M. Wisniewski and P. B. Kozlowski, "Evidence for blood-brain barrier changes in senile dementia of the
alzheimer type (SDAT)", Ann. N. Y. Acad. Sci. 396, 119-129, 1982. "...one would expect that the chronic
"flooding" of the neuronal elements with serum proteins would affect their performance." "The cause of the
increased BBB permeability in SDAT is unknown."
</p>
<p>
F. Laszlo, et al., "Association of microvascular leakage with induction of nitric oxide synthase: Effects of
nitric oxide synthase inhibitors in various organs," Eur. J. Pharmacol. 283(1-3), 47-53, 1995. "...assessed
by the vascular leakage of ... albumin." "Endotoxin...induced the expression of a calcium-independent nitric
oxide synthase...."
</p>
<p>
C. Nilsson, et al., "The nocturnal increase in human cerebrospinal fluid production is inhibited by a
beta(1)-receptor antagonist," Amer. J. Physiol.--Regul. Integr. C 36(6), R1445-R1448, 1994.
</p>
<p>
S. Capsoni, et al., "Reduction of regional cerebral blood flow by melatonin in young rats," Neuroreport
6(9), 1346-1348, 1995. "...reduced in the cerebral areas supplied by circle of Willis and the basilar
arteries. [Also to the] ...choroid plexuses."
</p>
<p>
A. C. Bowling and M. F. Beal, "Bioenergetic and oxidative stress in neurodegenerative diseases," Life Sci.
56(14), 1151-1171, 1995. "Defects in energy metabolism and increased cortical lactate levels have been
detected in Huntington's disease patients. Studies of Alzheimer's disease patients have identified decreased
[mitochondrial] complex IV activity...." "The age-related onset and progressive course of these
neurodegenerative diseases may be due to a cycling process betwen impaired energy metabolism and oxidative
stress."
</p>
<p>
K. Nakai, et al., "Regeneration of norepinephrine-containing fibers in occipital cortex of adult cats,"
Brain Res. Bull. 35(5-6), 409-412, 1994. "The present results indicate that the regenerative ability of the
central NE neurons is universal, not limited to the immature brain. ...equipped with a transmitter-specific
repair mechanism throughout life."
</p>
<p>
A. Bhatnagar, "Biochemical mechanism, of irreversible cell injury caused by free radical-initiated
reactions," Mol. Cell. Biochem. 137(1), 9-16, 1994. "...free radical-induced irreversible cell injury
results from a loss of protein thiols."
</p>
<p>
L. Balazs and M. Leon, "Evidence of an oxidative challenge in the Alzheimer's brain," Neurochem. Res. 19(9),
1131-1137, 1994. "These data suggest that the entire Alzheimer's brain may be subject to an oxidative
challenge, but that some brain areas may be more vulnerable than others to the consequent neural damage that
characterizes the disease."
</p>
<p>
J. A. Court and E. K. Perry, "CNS nicotinic receptors--possible therapeutic targets in neurodegenerative
disorders," CNS Drugs 2(3), 216-233, 1994. "...epidemiological evidence suggests that later in life tobacco
smoking may offer some protection against Parkinson's and Alzheimer's diseases."
</p>
<p>
N. A. Simonian and B. T. Hyman, "Functional alterations in Alzheimer's disease: Selective loss of
mitochondrial-encoded cytochrome oxidase mRNA in the hippocampal formation," J. Neuropathol. Exp. Neurol.
53(5), 508-512, 1994.
</p>
<p>
A. M. Proenze, et al., "Estrogen effects on blood amino acid compartmentation," Life Sci. 57(17), 1589-1587,
1995.
</p>
<p>
S. S. Smith, "Sensorimotor-correlated discharge recorded from ensembles of cerebellar Purkinje cells varies
across the estrous cycle of the rat," J. Neurophysiol. 74(3), 1095-1108, 1995. "...estradiol augments
excitatory responses of cerebellar Purkinje cells to...glutamate...."
</p>
<p>
C. F. Lim, et al., "Influence of nonesterified fatty acid and lysolecithins on thyroxine binding to
thyroxine-binding globulin and transthyretin," Thyroid 5(4), 319-324, 1995. "Unsaturated nonesterified fatty
acids...inhibited T4 binding to TBG." "Saturated NEFAs...were inactive."
</p>
<p>
O. V. Sviridov, "Specific binding of thyroid hormones by human plasma apolipoproteins: A new property of
known proteins," Biochemistry (Engl. translation) 59(5), 457-466, 1884.
</p>
<p>
T. Parasassi, et al., "Cholesterol protects the phospholipid bilayer from oxidative damage," Free Radical
Biology &amp; Medicine 19(4), 511-516, 1995.
</p>
<p>
A. G. Herzog, "Progesterone therapy in women with complex partial and secondary generalized seizures,"
Neurology 45(9), 1660-1662, 1995.
</p>
<p>
Z. Q. Ma, et al., Estrogenic control of monoamine oxidase A activity in human neuroblastoma cells expressing
physiological concentrations of estrogen receptor," Eur. J. Pharmacol. 284(1-2), 171-176, 1995.
</p>
<p>
J. G. Belasco and G. Brawerman, Control of Messenger RNA Stability, Academic Press, NY, 1994.
</p>
<p>
Leo Loeb, V. Suntzeff, and E. L. Burns, "Changes in the nature of the stroma in vagina, cervix and uterus of
the mouse produced by long-continued injections of estrogen and by advancing age," The American Journal of
Cancer 35(2), 159-174, 1939. Loeb, et al., speak of collagenous deposits as fibrous-hyaline tissue, varying
from a fibrillar to a homogeneous appearance, and varying in consistency from very dense and glassy in
appearance, to the softer gelatinous substance between cells and around arteries and glands. This material
increases with aging and eventually appears between cells in the muscular part of the uterus. With the
injection of moderate amounts of estrogen, the quantity of the material is increased. When large amounts of
estrogen are injected, "The connective tissue and muscle appear rarefied, almost as though they were
perforated by a large number of small holes." "...this condition is presumably due to a deposit of a mixture
of hyaline material and edematous fluid...." "This process of hyalinization...is counteracted by invasion by
connective tissue." In this way there may take place in many areas a substitution and organization of the
hyaline material by connective tissue, in which dilated capillaries may also be visible." "There is a second
process which in many cases accompanies the invasion and organization of hyaline substance by connective
tissue, namely a formation, at the margin of the hyaline material, of epithelioid and of small giant cells
possessing more than one nucleus." "As a rule, the epithelioid cells are seen alone; giant cells are more
rare." "...the connective-tissue fibrils may in places appear somewhat separated, perhaps by edematous
fluid." "The first changes consist very likely in the transudation of fluid from the vessels into the
connective tissue." "It seems, then, that at a very early stage after the beginning of the injections of
effective doses of estrogen, a liquid substance which separates the connective-tissue elements makes its
appearance, and that this represents one of the earliest changes induced by the hormone. It may be
accompanied, or soon followed, by the deposit of a hyaline substance which occurs first between the
connective-tissue cells, but may extend also to the muscle fibers." "...the deposit of hyaline which
progressively becomes more and more devoid of connective-tissue cells and blood vessels, is so marked that
the material acts like a foreign body...." "While it may be found also around blood vessels, such deposits
are less conspicuous than in other organs in mice, such as the mammary gland.... There is a tendency for the
hyaline substance to form sheaths around various organs and it is more prominent at the border separating
different tissues and organs." "In its appearance and in the foreign body reactions which it initiates this
substance somewhat resembles amyloid, which is readily produced in mice in various groups. The application
of stains differentiating amyloid from other hyaline material, however, gave negative results."
</p>
<p>
Leo Loeb, V. Suntzeff, and E. L. Burns, "The effects of age and estrogen on the stroma of vagina, cervix and
uterus in the mouse," Science 88(22, Nov. 4), 1938. "...large amounts of a hyaline substance are deposited,
which act as foreign bodies and cause the formation of epithelioed and giant cells and an ingrowth of
connective tissue. Thus an organization of this substance is attempted, which is interrupted, however, by
renewed deposition of this hyaline material." "No definite statement can be made at present as to the
chemical nature of this substance and its possible relation to a plasma constituent, except that it is not
amyloid." "...a very intense fibrosis and hyalinization of the stroma which may induce abnormal reactions in
the surrounding tissue. In this way it seems to be possible to accelerate and intensify very much some of
the old age changes in certain organs."
</p>
<p>
Winfried G. Rossmanith, "Gonadotropin secretion during aging in women: Review article," Exp. Gerontology
30(3/4) 369-381, 1995. "...major functional derangements, primarily at a hypothalamic rather than a
pituitary site, have been determined as concomitants of aging in women." "...aging may impair the negative
feedback sensitivity to ovarian sex steroids...." Hormonal changes at menopause "may represent the sum of
functional aberrations that were initiated much earlier in life...." "...prolonged estrogen exposure
facilitates the loss of hypothalamic neurons...."
</p>
<p>
J. R. Brawer, et al., "Ovary-dependent degeneration in the hypothalamic arcuate nucleus," Endocrinology 107,
274-279, 1980.
</p>
<p>
G. C. Desjardins, "Estrogen-induced hypothalamic beta-endorphin neuron loss: A possible model of
hypothalamic aging," Exp. Gerontology 30(3/4), 253-267, 1995. "This loss of opioid neurons is prevented by
treatment with antioxidants indicating that it results from estradiol-induced formation of free radicals."
"...this beta-endorphin cell loss is followed by a compensatory upregulation of mu opioid receptors in the
vicinity of LHRH cell bodies." Resulting supersensitivity of the cells results "in chronic opioid
suppression of the pattern of LHRH release, and subsequently that of LH." The neurotoxic effects of
estradiol causes a "cascade of neuroendocrine aberrations resulting in anovulatory acyclicity." Treatment
with an opiod antagonist "reversed the cystic morphology of ovaries and restored normal ovarian cycles" in
estrogen-treated rats.
</p>
<p>
G. B. Melis, et al., "Evidence that estrogens inhibit LH secretion through opioids in postmenopausal women
using naloxone," Neuroendocrinology 39, 60-63, 1984.
</p>
<p>
H. J. Sipe, et al., "The metabolism of 17 beta-estradiol by lactoperoxidase: A possible source of oxidative
stress in breast cancer," Carcinogenesis 15(11), 2637-2643, 1994. "...molecular oxygen is consumed by a
sequence of reactions initiated by the glutathione thiyl radical. ...the estradiol phenoxyl radical
abstracts hydrogen from...NADH to generate the NAD radical." "...the futile metabolism of micromolar
quantities of estradiol catalyzes the oxidation of much greater concentrations of biochemical reducing
cofactors, such as glutathione and NADH, with hydrogen peroxide produced as a consequence."
</p>
<p>
S. Santagati, et al., "Estrogen receptor is expressed in different types of glial cells in culture," J.
Neurochem. 63(6), 2058-2064, 1994. "...in all three types of glial cell analyzed in almost equal amounts..."
</p>
<p>
D. X. Liu and L. P. Li, "Prostaglandin F-2 alpha rises in response to hydroxyl radical generated in vivo,"
Free Radical Biol. Med. 18(3), 571-576, 1995. "Free radicals and some free fatty acids, such as arachidonic
acid metabolites...may form a feedback loop in which generation of one type leads to formation of the
other." "Prostaglandin F-2 alpha dramatically increased in response to hydroxyl radical generation...."
</p>
<p>
J. Owens and P. A. Schwartzkroin, "Suppression of evoked IPSPs by arachidonic acid and prostaglandin F-2
alpha," Brain Res. 691(1-2), 223-228, 1995. "These findings suggest that high levels of AA and its
metabolites may bias neurons towards excitation."
</p>
<p>
E. A. Quail and G. C. T. Yeoh, "The effect of iron status on glyceraldehyde 3-phosphate dehydrogenase
expression in rat liver," FEBS Lett. 359(2-3), 126-128, 1995. "...the overexpression of GAPDH mRNA in iron
deficiency is probably due to increased message stability." [This is one of the points discussed by Henics.
Estrogen, which increases iron retention, also modifies mRNA stability.]
</p>
<p>
J. G. Liehr, et al., "4-hydroxylation of estradiol by human uterine myometrium and myoma microsomes:
Implications for the mechanism of uterine tumorigenesis," Proc Natl Acad Sci USA 92(20), 9220-9224, 1995.
"... elicits biological activities distinct from estradiol, most notably an oxidant stress response induced
by free radicals generated by metabolic redox cycling reactions."
</p>
<p>
J. G. Liehr and D. Roy, "Free radical generation by redox cycling of estrogens," Free Rad. Biol. Med. 8,
415-423, 1990.
</p>
<p>
F. Fourrier, Circ. Shock 43(4), 171-178, 1994, "High estrogen levels were specifically observed in patients
with sepsis and septic shock, either males or females." "Circulating T levels were decreased in all male
patients."
</p>
<p>
J. A. Jarvis, et al., "H-1 NMR analysis of fibril-forming peptide fragments of transthyretin," Int. J. Pept.
Protein Res. 44(4), 388-398, 1994. "...fragments of the protein transthyretin, previously shown to form
cross beta-sheet amyloid-like fibrils in vitro, were investigated...."
</p>
<p>
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