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2005
Department of Animal Sciences, University
of Missouri, Columbia, 65211, USA.
Leptin is a protein hormone produced
by adipose tissue that influences hypothalamic mechanisms
regulating appetite and energy balance. In species tested
thus far, including horses, concentrations of leptin increase
as animal fat mass increases. The variables and mechanisms
that influence the secretion of leptin are not well known,
nor is it known in equine species how the secretion of
leptin is influenced by acute alterations in energy balance,
circadian patterns, and/or reproductive competence. Our
objectives were to determine in horses: 1) whether plasma
concentrations of leptin are secreted in a circadian and/or
a pulsatile pattern; 2) whether a 48-h period of feed
restriction would alter plasma concentrations of leptin,
growth hormone, or insulin; and 3) whether ovariectomy
and/or a melatonin implant would affect leptin. In Exp.
1, mares exposed to ambient photoperiod of visible light
(11 h, 33 min to 11 h, 38 min), received treatments consisting
of a 48-h feed restriction (RES) or 48 h of alfalfa hay
fed ad libitum (FED). Mares were maintained in a dry lot
before sampling and were tethered to a rail during sampling.
Analyses revealed that leptin was not secreted in a pulsatile
manner, and that mean leptin concentrations were greater
(P < 0.001) in FED vs. RES mares (17.20 +/- 0.41 vs.
7.29 +/- 0.41 ng/mL). Plasma growth hormone was pulsatile,
and mean concentrations were greater in RES than FED mares
(2.15 +/- 0.31 vs. 1.08 +/- 0.31 ng/mL; P = 0.05). Circadian
patterns of leptin secretion were observed, but only in
FED mares (15.39 +/- 0.58 ng/mL for morning vs. 19.00
+/- 0.58 ng/mL for evening; P < 0.001). In Exp. 2,
mares that were ovariectomized or intact received either
a s.c. melatonin implant or a sham implant. Thereafter,
blood was sampled at weekly intervals at 1000 and 1700.
Concentrations of leptin in samples collected at 1700
were greater (P < 0.001) than in those collected at
1000 (28.24 +/- 1.7 vs. 22.07 +/- 1.7 ng/mL). Neither
ovariectomy nor chronic treatment with melatonin affected
plasma concentrations of leptin or the circadian pattern
of secretion. These data provide evidence that plasma
leptin concentrations in the equine are sensitive to acute
changes in nutritional status and vary in a circadian
pattern that is sensitive to fasting but not to melatonin
treatment or ovariectomy.
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Department of Biology, Norwegian
University of Science and Technology, NO-7491 Trondheim,
Norway.
We investigated whether Pekin ducklings
(Anas platyrhyncos domesticus) exhibited any energy-saving
mechanisms that could lessen the detrimental effects of
reduced food intake during early development. Further,
we evaluated the role of body compositional changes behind
such potential mechanisms and the consequences on thermoregulatory
capacity. The ducklings exhibited substantial energy-saving
mechanisms as a response to diet restriction. After 5
d of diet restriction, the resting metabolic rate (RMR)
of 10- and 20-d-old ducklings was 16.4% and 32.1% lower,
respectively, than predicted from body mass compared with
ad lib. fed ducklings (controls). These reductions in
RMR could have been adaptive responses in anticipation
of a lasting food shortage, or they could have been consequences
of the restricted diet and the lack of essential nutrients.
We argue that the responses were adaptive. The low RMRs
were not a consequence of depleted fuel stores because
the diet-restricted ducklings exhibited substantial amounts
of stored lipids at the end of the diet-restriction periods.
Hypothermia accounted for approximately 50% of the reduction
in RMR in the 10-d-old diet-restricted ducklings, but
hypothermia did not occur in the 20-d-old diet-restricted
ducklings. Diet restriction resulted in a reduced liver
and intestine size and an unchanged size of the leg muscles
and heart, while the length of the skull increased (compared
with controls of a given body mass). However, changes
in body composition were only minor predictors of the
observed changes in RMR. Peak metabolic rate (PMR) was
approximately 10% lower in the diet-restricted ducklings
compared with the controls. We have interpreted the lower
PMR as a consequence of the reductions in RMR rather than
as a consequence of a decreased function of the thermoregulatory
effector mechanisms.
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2003
Department of Pathology, Harvard
Medical School, Boston, Massachusetts 02115, USA.
Calorie restriction extends lifespan
in a broad range of organisms, from yeasts to mammals.
Numerous hypotheses have been proposed to explain this
phenomenon, including decreased oxidative damage and altered
energy metabolism. In Saccharomyces cerevisiae, lifespan
extension by calorie restriction requires the NAD+-dependent
histone deacetylase, Sir2 (ref. 1). We have recently shown
that Sir2 and its closest human homologue SIRT1, a p53
deacetylase, are strongly inhibited by the vitamin B3
precursor nicotinamide. Here we show that increased expression
of PNC1 (pyrazinamidase/nicotinamidase 1), which encodes
an enzyme that deaminates nicotinamide, is both necessary
and sufficient for lifespan extension by calorie restriction
and low-intensity stress. We also identify PNC1 as a longevity
gene that is responsive to all stimuli that extend lifespan.
We provide evidence that nicotinamide depletion is sufficient
to activate Sir2 and that this is the mechanism by which
PNC1 regulates longevity. We conclude that yeast lifespan
extension by calorie restriction is the consequence of
an active cellular response to a low-intensity stress
and speculate that nicotinamide might regulate critical
cellular processes in higher organisms.
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2002
Pet Nutrition Research Department,
Nestle Purina Pet Care Co, St Louis, MO 63164, USA.
OBJECTIVE: To evaluate the effects
of 25% diet restriction on life span of dogs and on markers
of aging. DESIGN: Paired feeding study. ANIMALS: 48 Labrador
Retrievers. PROCEDURES: Dogs were paired, and 1 dog in
each pair was fed 25% less food than its pair-mate from
8 weeks of age until death. Serum biochemical analyses
were performed, body condition was scored, and body composition
was measured annually until 12 years of age. Age at onset
of chronic disease and median (age when 50% of the dogs
were deceased) and maximum (age when 90% of the dogs were
deceased) life spans were evaluated. RESULTS: Compared
with control dogs, food-restricted dogs weighed less and
had lower body fat content and lower serum triglycerides,
triiodothyronine, insulin, and glucose concentrations.
Median life span was significantly longer for dogs in
which food was restricted. The onset of clinical signs
of chronic disease generally was delayed for food-restricted
dogs. CONCLUSIONS AND CLINICAL RELEVANCE: Results
suggest that 25% restriction in food intake increased
median life span and delayed the onset of signs of chronic
disease in these dogs.
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