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NEUROENDOCRINE
AND HORMONAL SYSTEM |
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2005
Department of Animal Physiology-II,
Faculty of Biology, Complutense University, Madrid 28040,
Spain.
Reduction of the caloric intake
without malnutrition is one of the most consistent experimental
interventions increasing mean and maximum life span in
different species. For over seventy years caloric restriction
has been studied, and during the last years the number
of investigations on such nutritional intervention and
aging has dramatically increased. Since caloric restriction
decreases the aging rate, it constitutes an excellent
approach to better understand the mechanisms underlying
the aging process. Different investigations have reported
reductions in steady-state oxidative damage to proteins,
lipids and DNA in animals subjected to restricted caloric
intake. Most interestingly, several investigations have
reported that these decreases in oxidative damage are
related to a lowering of mitochondrial free radical generation
rate in different tissues of the restricted animals. Thus,
similarly to what has been described for long-lived animals
in comparative studies, a decrease in mitochondrial free
radical generation has been suggested to be one of the
main determinants of the extended life span observed in
restricted animals. Here we review recent studies on caloric
restriction and longevity, focusing on mitochondrial oxidative
stress and the proposed mechanisms leading to an extended
longevity in caloric restricted animals.
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Integrated Laboratory Systems, Research
Triangle Park, North Carolina 27709, USA.
In our previous work we showed
that dietary restriction initiated at puberty reduced
prostate cancer development in the TRAMP mouse model.
The current study was conducted to ascertain whether a
dietary restriction regime would similarly reduce lesion
development if imposed once tumor development was well
established. Male TRAMP mice were maintained on an ad
libitum diet until 20 weeks of age when proliferative
prostate lesions are clearly evident. Mice were then subjected
to a 20% restriction in dietary calories compared to matched
controls, which were continued on ad libitum feeding.
Mice were sacrificed at 20, 24, 32, and 39 weeks of age
and proliferative epithelial lesions of the prostate were
assessed using an established grading scheme. In this
study, although dietary restriction reduced mean sex pluck
weight (prostate and seminal vesicles), and mean grade
of epithelial proliferative lesions in the dorsal and
lateral lobes of the prostate, the effect was not as pronounced
as was the case with dietary restriction from puberty.
There was no relationship between serum insulin like growth
factor (IGF-1) and prostate lesion grade. Additionally,
we also report the relationship between lobe specific
lesion development and SV40 immunostaining and, the occurance
of neuroendocrine tumors (NETs) in the ventral prostate
and urethra of the TRAMP mouse. NETs stained with high
specificity and sensitivity for the neuroendocrine markers,
synaptophysin and neuron-specific enolase (NSE), less
for serotonin, but not for chromogranin A. NETs did not
stain for cyclo-oxygenase-2 (COX-2) nor androgen receptor
(AR). SV40 positive tubulo-acinar tumors seen occasionally
in the kidney, did not stain for synaptophysin nor NSE.
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2004
Program in Nutritional Metabolism,
Massachusetts General Hospital, Harvard Medical School,
55 Fruit Street, LON 207, Boston, Massachusetts 02114,
USA.
Leptin is a nutritionally regulated
hormone that may modulate neuroendocrine function during
caloric deficit. We hypothesized that administration of
low-dose leptin would prevent changes in neuroendocrine
function resulting from short-term caloric restriction.
We administered physiologic doses of r-metHuLeptin [(0.05
mg/kg sc daily or identical placebo in divided doses (0800,
1400, 2000, and 0200 h)] to 17 healthy, normal-weight,
reproductive-aged women during a 4-d fast. Leptin levels
were lower in the placebo-treated group during fasting
(3.3 +/- 0.2 vs. 9.6 +/- 1.0 ng/ml, P < 0.001, placebo
vs. leptin-treated at end of study). Fat mass decreased
more in the leptin than the placebo-treated group (-0.6
+/- 0.1 vs. -0.2 +/- 0.1 kg, P = 0.03). Both overnight
LH area (38.9 +/- 21.5 vs. 1.2 +/- 11.1 microIU/ml.min,
P = 0.05) and LH peak width increased (15.8 +/- 7.1 vs.
-2.3 +/- 6.7 min, P = 0.06) and LH pulsatility decreased
(-2.0 +/- 0.9 vs. 1.0 +/- 0.8 peaks/12 h, P = 0.03) more
in the leptin vs. placebo group. LH pulse regularity was
higher in the leptin-treated group (P = 0.02). Twenty-four-hour
mean TSH decreased more in the placebo than the leptin-treated
group, respectively (-1.06 +/- 0.27 vs. -0.32 +/- 0.18
microIU/ml, P = 0.03). No differences in 24-h mean GH,
cortisol, IGF binding protein-1, and IGF-I were observed
between the groups. Hunger was inversely related to leptin
levels in the subjects randomized to leptin (r = -0.76,
P = 0.03) but not placebo (r = -0.18, P = 0.70) at the
end of the study. Diminished hunger was seen among subjects
achieving the highest leptin levels. Our data provide
new evidence of the important role of physiologic leptin
regulation in the neuroendocrine response to acute caloric
deprivation.
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2000
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Siems Clinics of Physical Medicine
and Rehabilitation, University Hospital Charite, Humboldt
University, Berlin, Germany.
BACKGROUND: Sympathetic hyperactivity
is one factor for alterations encountered in the plurimetabolic
syndrome, a cluster of metabolic abnormalities including
obesity, hyperlipidemia, sometimes hyperglycaemia, and
hypertonia. It was interesting to know if prolonged severe
underfeeding (230 kcal/day) leads to decreases in catecholamines
in those patients. METHODS: The plasma concentrations
of catecholamines in patients (n = 16) suffering from
plurimetabolic syndrome were studied before and during
a 16-day period of medically controlled severe underfeeding
(230 kcal/day) at rest and in response to exercise. RESULTS:
During the period of underfeeding, mean norepinephrine
concentrations decreased at rest from 1.45 to 0. 96 nmol/liter,
and in response to exercise, from 6.1 to 3.2 nmol/liter.
Epinephrine concentrations decreased from 0.15 to 0.1
nmol/liter and from 0.26 to 0.17 nmol/liter, respectively.
A significant decrease in catecholamine concentrations
was observed only after 16 days of underfeeding. CONCLUSIONS:
Clinically controlled underfeeding of patients with plurimetabolic
syndrome may result in beneficial clinical and biochemical
effects. The findings indicate that relatively long periods
of underfeeding induce decreases in plasma catecholamine
concentrations. Nevertheless, most of the fall in mean
values in norepinephrine and also of the fall in blood
pressure values occurred by Day 2. From those tendencies
and from the significant changes in both parameters at
Day 16 of severe underfeeding one could conclude that
altered sympathetic nervous system activity could contribute
to the fall in blood pressure.
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Department of Internal Medicine III,
Academic University Hospital Dijkzigt and Erasmus Medical
School, Rotterdam, The Netherlands.
OBJECTIVE: Liver handling of thyroid
hormones (TH) has been known to alter significantly during
fasting. This study investigates whether renal handling
of TH is also changed during fasting. METHODS: We measured
urinary excretion rates and clearances of free tri-iodothyronine
(T(3)) and free thyroxine (T(4)) in healthy subjects prior
to and on the third day of fasting. RESULTS: During fasting,
both mean T(3) and T(4) urinary excretion decreased significantly
to a mean value of 42% of control. Also, total and free
(F) serum T(3) concentrations declined significantly,
but serum T(4) did not change. Both FT(3) and FT(4) clearance
decreased significantly during fasting (62% and 42% of
control). The fasting-induced decrease in uric acid clearance
correlated well with the decrease in FT(3) clearance (r=0.94;
P<0.001). Serum concentrations of non-esterified fatty
acids (NEFA) were significantly elevated during fasting.
CONCLUSIONS: The findings cannot be fully explained by
the fasting-induced decrease in serum T(3), and are in
accordance with inhibition of uptake of T(3) and T(4)
at the basolateral membrane of the tubular cell. This
inhibition may be caused by a decreased energy state of
the tubular cell and by other factors such as ketoacidosis
and/or increased NEFA concentrations during fasting.
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1997
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Department of Psychosomatic Medicine,
Faculty of Medicine, Kyushu University, Fukuoka, Japan.
We investigated changes in the
immunoendocrine system during fasting. Ten hospitalized
patients aged 14-46 y with psychosomatic disorders fasted
for 7 or 10 d. Blood samples were collected before and
on days 3 and 7 of the 7-d fasts. When fasting continued
to 10 d, an additional sample was taken on day 10. We
measured blood cellularity (white blood cells and total
lymphocytes), the total number and percentage of lymphocyte
subsets (CD2, CD3, CD4, CD8, and CD19), natural killer
(NK) cell activity, cytokines (interleukin 1 beta, interleukin
2, interleukin 6, granulocyte-macrophage colony stimulating
factor, tumor necrosis factor alpha, and interferon gamma),
and soluble interleukin 2 receptors. Corticotropin, cortisol,
and dehydroepiandrosterone sulfate (DHEAS) concentrations
were also determined. Although the total number of lymphocytes
decreased during fasting, NK cell activity increased significantly.
Plasma cortisol and DHEAS concentrations also increased
significantly whereas changes in corticotropin concentrations
were not significant. The total number and percentage
of CD4 cells decreased significantly during fasting but
no other lymphocyte subsets changed significantly. The
percentage of CD4 cells was negatively correlated with
cortisol concentrations during fasting. No detectable
changes occurred in cytokines or soluble interleukin 2
receptors during the study. All measured immunoendocrine
values that changed during fasting returned to prefasting
values during the refeeding period. These findings indicate
that fasting affects immune variables such as T cell subsets
and NK cell activity at least in part through changes
in adrenal gland-related hormones.
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1996
Division of Endocrinology/Diabetes/Metabolism,
Temple University School of Medicine, Philadelphia, PA
19140, USA.
ABSTRACT: We have studied the effect
of fasting on serum leptin levels in normal volunteers.
Five normal-weight (BMI < 28, 2 males/3 females) and
five obese subjects (BMI > 28, 2 males/3 females) were
fasted (0 Kcal) for 52 h. Mean plasma glucose decreased
from 88 +/- 3 to 63 +/- 5 mg/dl, serum insulin from 16
+/- 1 to 10 +/- 1 microU/ml, plasma beta-hydroxybutyrate
increased from 0.2 +/- 0.1 to 1.8 +/- 0.4 mumol/ml. Serum
leptin levels were higher in the obese than in the normal-weight
volunteers (31 +/- 12 vs 11 +/- 3 ng/ml, p < 0.01).
In the obese, serum leptin decreased from 31 +/- 10 to
12 +/- 5 ng/ml aft552 h (-72%, p < 0.001); in the normal-weight
it decreased from 11 +/- 3 to 4 +/- 0.5 ng/ml (-64%, p
< 0.001). Serum leptin correlated positively with serum
insulin (r = 0.51, p < 0.001) and with plasma glucose
(r = 0.61, p < 0.001). To determine effects of fasting
induced decreases in plasma glucose and insulin on serum
leptin, four normal subjects (3 males/1 female) were fasted
for 72 h while their plasma glucose was clamped at basal
levels with a variable rate glucose infusion. In these
volunteers, serum leptin and insulin concentrations remained
unchanged. In summary, the rapid decrease in serum leptin
levels during fasting indicated that leptin release was
regulated by factors other than changes in body fat mass.
The lack of leptin changes during fasting, when basal
insulin and glucose levels were maintained at basal levels,
suggested that insulin and/or glucose may play a role
in the regulation of leptin release.
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1995
Department of Physiology, University
of Texas Health Science Center, San Antonio 78284-7756,
USA.
ABSTRACT: Neuroendocrine changes
contribute to female reproductive aging, but changes in
other tissues also play a role. In C57BL/6J mice, neuroendocrine
changes contribute to estrous cycle lengthening and reduced
plasma estradiol levels, but the midlife loss of cyclicity
is mainly due to ovarian failure. Hypothalamic estrogen
receptor dynamics and estrogenic modulation of gene _expression
are altered in middle-aged cycling mice. Although insufficient
to arrest cyclicity, these neuroendocrine changes may
contribute to other reproductive aging phenomena, such
as altered gonadotropin secretion and lengthened estrous
cycles. In women, the loss of ovarian oocytes, the cause
of menopause, accelerates in the decade before menopause.
Accelerated oocyte loss may in turn be caused by a selective
elevation of plasma follicle stimulating hormone, and
neuroendocrine involvement may thus be implicated in menopausal
oocyte loss. Chronic calorie restriction retards both
neural and ovarian reproductive aging processes, as well
as age-related change in many other physiological systems.
The diverse effects of food restriction raises the possibility
of an underlying coordinated regulatory response of the
organism to reduced caloric intake, possibly effected
through alterations of neural and/or endocrine signalling.
We are therefore attempting to identify neuroendocrine
changes that may coordinate the life prolonging response
of animals to food restriction. Our initial focus is on
the glucocorticoid system. Food restricted rats exhibit
daily periods of hyperadrenocorticism, manifest as elevated
free corticosterone during the diurnal peak. We hypothesize
that this hyperadrenocortical state potentiates cellular
and organismic homeostasis throughout life in a manner
similar to that achieved during acute stress, thereby
retarding aging processes and extending life span.
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1991
Department of Neurosciences, Roche
Institute of Molecular Biology, Nutley, New Jersey.
The alteration of endogenous opiate
alkaloids during fasting state was investigated in rats.
The concentrations of morphine and codeine in the cortex,
midbrain, pons plus medulla, cerebellum, adrenal gland
and pancreas were measured using radioimmunoassay for
the opiates following high pressure liquid chromatography.
The morphine and codeine contents of fasting rats showed
maximum elevated levels in cortex, pons plus medulla and
pancreas after 2 days of fasting, but after 1 day in midbrain.
The opiate content of the cerebellum showed a tendency
for a continuous increase during the 4 days. Adrenal glands
of fasting rats had elevated levels at days 3 and 4, although
there were great fluctuations within the groups.
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