UMLS:C0038187 - FACTA Search

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Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A total deficiency in or resistance to the protein leptin causes severe obesity. As leptin levels rise with increasing adiposity in rodents and man, it is proposed to act as a negative feedback 'adipostatic signal' to brain centres controlling energy homeostasis, limiting obesity in times of nutritional abundance. Starvation is also a threat to homeostasis that triggers adaptive responses, but whether leptin plays a role in the physiology of starvation is unknown. Leptin concentration falls during starvation and totally leptin-deficient ob/ob mice have neuroendocrine abnormalities similar to those of starvation, suggesting that this may be the case. Here we show that preventing the starvation-induced fall in leptin with exogenous leptin substantially blunts the changes in gonadal, adrenal and thyroid axes in male mice, and prevents the starvation-induced delay in ovulation in female mice. In contrast, leptin repletion during this period of starvation has little or no effect on body weight, blood glucose or ketones. We propose that regulation of the neuroendocrine system during starvation could be the main physiological role of leptin.
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PMID:Role of leptin in the neuroendocrine response to fasting. 871 38

Neuropeptide Y (NPY) neurones in the arcuate nucleus of the rodent hypothalamus may play a key role in responding to reductions in body energy stores with appropriate changes in energy homeostasis, namely an increase in food-seeking behaviour and hyperphagia, together with a reduction in heat production by brown adipose tissue. These adaptive responses are mimicked by the injection of NPY into the main sites of projection of the NPY neurones, and animals that are threatened by energy deficits (e.g. through starvation or insulin-deficient diabetes) show increased activity of these neurones. Genetically obese rodents also show hyperactivity of the NPY neurones, which is inappropriate to their energy needs and may contribute to their hyperphagia, reduced energy expenditure and excessive weight gain. The NPY neurones may be inhibited by insulin and leptin, which may both serve as signals of peripheral fat mass. Ultimately, characterization of the specific "feeding' receptors which mediate NPY's central effects on energy homeostasis may provide opportunities for designing drugs to manipulate and appetite and energy balance in man, notably obesity and the cachexia commonly associated with malignancy and chronic infection.
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PMID:Neuropeptide Y, the hypothalamus and the regulation of energy homeostasis. 887 Nov 82

The discovery of the obese gene in the mouse and its conserved homologue in humans has led to important discoveries in energy metabolism. One of the chief findings was the fact that the expression of the leptin gene was regulated and that it, in turn, could regulate metabolism and behavior. Much of the literature has focused on the physiological role of leptin in driving processes as diverse as reproduction, starvation defence, feeding behavior or body weight, all dependent on expression levels of the ob gene. Here, we will describe our work, in which we have begun to elucidate the regulatory processes controlling obese gene expression.
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PMID:Regulation of ob gene expression in rodents and humans. 901 33

Leptin, the product of the ob gene, controls appetite through the hypothalamus and may affect many other tissues because of the widespread distribution of its receptors. Leptin is synthesized by white adipose tissue (WAT) under conditions of high energy availability and insulin stimulus. Glucocorticoids enhance this synthesis and catecholamines hamper leptin production. Leptin diminishes insulin secretion by the pancreatic beta cells and induces insulin resistance. In fact leptin hampers insulin action on WAT itself in a negative feedback loop. The evidence acquired in studies on diabetics, starvation, refeeding and insulin and glucose clamps supports this interpretation, which may also explain part of the difficulties encountered by the current postulate that links leptin to WAT mass size signalling to the brain. Leptin may be, essentially, a counter-regulatory hormone limiting the insulin drive to store energy in the form of fat, its effects reaching from a decrease in food intake to lower insulin secretion and increased resistance to insulin and lower glucose uptake and fat synthesis by WAT.
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PMID:Is leptin an insulin counter-regulatory hormone? 901 47

Prolonged fasting is associated with a number of changes in the thyroid axis manifested by low serum T3 and T4 levels and, paradoxically, low or normal TSH. This response is, at least partly, caused by suppression of proTRH gene expression in neurons of the hypothalamic paraventricular nucleus (PVN) and reduced hypothalamic TRH release. Because the fall in thyroid hormone levels can be blunted in mice by the systemic administration of leptin, we raised the possibility that leptin may have an important role in the neuroendocrine regulation of the thyroid axis, through effects on hypophysiotropic neurons producing proTRH. Adult male, Sprague-Dawley rats were either fed normally, fasted for 3 days, or fasted and administered leptin at a dose of 0.5 microg/gm BW i.p. every 6 h. Fasted animals showed significant reduction in plasma total and free T4 and T3 levels compared with controls, that were restored toward normal by the administration of leptin. Percent free T4, but not percent free T3, increased during fasting, further suggesting a reduction in plasma transthyretin levels that did not return to fed levels after leptin administration. By semiquantitative analysis of in situ hybridization autoradiograms, proTRH messenger RNA in medial parvocellular PVN neurons was markedly suppressed in the fasting animals but was restored to normal by leptin administration [fed vs. fast vs. fast/leptin (density units x 10(8)): 8.5 +/- 0.4, 3.2 +/- 0.2, 8.1 +/- 0.8]. In contrast, proTRH messenger RNA in adjacent neurons in the lateral hypothalamus that do not have a hypophysiotropic function remained unchanged by any of the experimental manipulations. These findings indicate that leptin has a selective, central action to modulate the hypothalamic-pituitary-thyroid axis by regulating proTRH gene expression in the PVN but does not have peripheral effects on thyroid-binding proteins. We propose that the fall in circulating leptin levels during fasting resets the set point for feedback inhibition by thyroid hormones on the biosynthesis of hypophysiotropic proTRH, thereby allowing adaptation to starvation.
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PMID:Leptin prevents fasting-induced suppression of prothyrotropin-releasing hormone messenger ribonucleic acid in neurons of the hypothalamic paraventricular nucleus. 916 50

The role of neuropeptide Y (NPY), leptin and 5-HT and other neurotransmitters implicated in the regulation of energy balance are only now being fully investigated. Little is known about how they may interact with each other in this complex process. In evolutionary terms, the availability of excess food, and the risk of obesity, is only a recent occurrence in humans. Man, and perhaps other species, may not have developed a specialised neurochemical system for adjusting food intake during obesity. Hence perturbation of a single system, such as hypothalamic NPY or leptin, is unlikely to be directly responsible for the development of most obesity. In contrast, periods of food deprivation and partial starvation have been common in the animal kingdom and the multitude of neurotransmitters implicated in energy balance are more likely to be directed towards increasing food consumption and conserving energy than reducing appetite and increasing thermogenesis in the presence of excess. The last few years have witnessed rapid advances in the understanding of the fundamental mechanisms that regulate body weight and fat content. This progress will undoubtedly continue in the future, and it is hoped that this will be rewarded with the development of new drugs to treat obesity. At present, however, it is unclear whether NPY, leptin, or other apparently strong candidates will be the winner in the lucrative race for the ideal anti-obesity drug.
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PMID:Neurobiology. 924 37

Prematurity, maternal smoking, and low birth weight each result in neuroendocrine dysfunction and increased perinatal morbidity and mortality. Leptin, an adipocyte-secreted protein, has provided the first physiological link to the regulatory system controlling starvation-induced neuroendocrine changes in rodents. This study investigated whether leptin concentrations were detectable in cord blood of newborns, and assessed the effect of birth weight, prematurity, and maternal smoking on cord blood leptin concentrations. Fifty consecutively enrolled full-term and 12 preterm newborns born to mothers who smoked during pregnancy were compared to 50 full-term and 12 preterm newborns born to parents who were nonsmokers. RIA for leptin was performed using cord blood samples collected immediately after birth. Leptin concentrations were detectable in newborns and correlated positively with obesity (full-term, r = 0.30, P < 0.01; preterm, r = 0.47, P < 0.05). Maternal smoking during pregnancy was associated with decreased leptin concentrations in the cord blood of both full-term and preterm newborns. This effect was independent of obesity (full-term newborns: 5.25 +/- 2.48 vs. 4.21 +/- 2.71 ng/ml, P = 0.01) and was more pronounced in premature newborns (5.67 +/- 3.6 vs. 2.46 +/- 2.03, P = 0.02), and its magnitude in full-term newborns was directly related to the reported number of cigarettes the mothers of the full-term newborns smoked per day (r = -0.438, P < 0.001). Thus, low birth weight and maternal smoking are both associated with decreased leptin concentrations, and these effects are more pronounced in premature newborns. Future studies will be needed to determine whether administration of leptin might reverse the neuroendocrine dysfunction caused by maternal smoking.
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PMID:Effect of birth weight and maternal smoking on cord blood leptin concentrations of full-term and preterm newborns. 928 10

Mitochondrial uncoupling proteins (UCPs) are transporters that are important for thermogenesis. The net result of their activity is the exothermic movement of protons through the inner mitochondrial membrane, uncoupled from ATP synthesis. We have cloned a third member of the UCP family, UCP3. UCP3 is expressed at high levels in muscle and rodent brown adipose tissue. Overexpression in yeast reduced the mitochondrial membrane potential, showing that UCP3 is a functional uncoupling protein. UCP3 RNA levels are regulated by hormonal and dietary manipulations. In contrast, levels of UCP2, a widely expressed UCP family member, showed little hormonal regulation. In particular, muscle UCP3 levels were decreased 3-fold in hypothyroid rats and increased 6-fold in hyperthyroid rats. Thus UCP3 is a strong candidate to explain the effects of thyroid hormone on thermogenesis. White adipose UCP3 levels were greatly increased by treatment with the beta3-adrenergic agonist, CL214613, suggesting another pathway for increasing thermogenesis. UCP3 mRNA levels were also regulated by dexamethasone, leptin, and starvation, albeit differently in muscle and brown adipose tissue. Starvation caused increased muscle and decreased BAT UCP3, suggesting that muscle assumes a larger role in thermoregulation during starvation. The UCP3 gene is located close to that encoding UCP2, in a chromosomal region implicated in previous linkage studies as contributing to obesity.
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PMID:Uncoupling protein-3 is a mediator of thermogenesis regulated by thyroid hormone, beta3-adrenergic agonists, and leptin. 930 58

Chronic cold exposure stimulates sympathetically driven thermogenesis in brown adipose tissue (BAT), resulting in fat mobilization, weight loss, and compensatory hyperphagia. Hypothalamic neuropeptide Y (NPY) neurons are implicated in stimulating food intake in starvation, but may also suppress sympathetic outflow to BAT. This study investigated whether the NPY neurons drive hyperphagia in rats that have lost weight through cold exposure. Rats exposed to 4 degrees C for 21 days weighed 14% less than controls maintained at 22 degrees C (P < 0.001). Food intake increased after 3 days and remained 10% higher thereafter (P < 0.001). Increase BAT activity was confirmed by 64, 96, and 335% increases in uncoupling protein-1 mRNA at 2, 8, and 21 days. Plasma leptin decreased during prolonged cold exposure. Cold-exposed rats showed no significant changes in NPY concentrations in any hypothalamic regions or in hypothalamic NPY mRNA at any time. We conclude that the NPY neurons are not activated during cold exposure. This is in contrast with starvation-induced hyperphagia, but is biologically appropriate since enhanced NPY release would inhibit thermogenesis causing potentially lethal hypothermia. Other neuronal pathways must therefore mediate hyperphagia in chronic cold exposure.
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PMID:Hyperphagia in cold-exposed rats is accompanied by decreased plasma leptin but unchanged hypothalamic NPY. 945 99

Leptin is thought to regulate energy balance through effects on food intake and thermogenesis. In addition, leptin may serve as a mediator of the neuroendocrine response to starvation, and may modulate the stress response and the timing of puberty. A role for leptin in development is suggested by the presence of neuroendocrine and structural neuronal abnormalities in ob/ob mice with genetic leptin deficiency. Here, we sought to determine the ontogeny of leptin expression and its relationship to the developing neuroendocrine axis. Leptin increased 5-10-fold in female mice during the second postnatal week independent of fat mass, and declined after weaning. The rise in leptin preceded the establishment of adult levels of corticosterone, thyroxine, and estradiol. In contrast to adult mice, leptin was not acutely regulated by food deprivation during the early postnatal period. Circadian rhythms of leptin, corticosterone, and thyroxine were regulated by food intake in adult mice. When ad libitum feeding was restricted to the light cycle, peak corticosterone levels were shifted to the beginning of the light cycle and coincided with the nadir of leptin. The inverse relationship between leptin and corticosterone was maintained such that a rise in leptin after feeding was associated with a decline in corticosterone. To determine whether changes in corticosterone during food restriction are mediated by leptin, we compared the patterns of corticosterone levels among ob/ob, db/db, and lean mice. Despite their higher basal levels of corticosterone, leptin deficiency in ob/ ob mice did not prevent the nocturnal rise in corticosterone. In contrast, the nocturnal surge of corticosterone was blunted in db/db mice. Therefore, it is likely that factors in addition to leptin are involved in the regulation of the circadian rhythm of corticosterone. The temporal relationship between leptin and other hormones in neonatal and adult mice suggests that leptin is involved in the maturation and function of the neuroendocrine axis.
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PMID:Postnatal leptin surge and regulation of circadian rhythm of leptin by feeding. Implications for energy homeostasis and neuroendocrine function. 948 72

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