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Query: UNIPROT:P01189 (
beta-endorphin
)
21,003
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Striated muscle of the esophagus was until recently considered to consist of "classical" skeletal muscle fibers innervated by cholinergic vagal motoneurons. The recently described co-innervation originating from enteric neurons expressing nNOS, VIP,
NPY
, and galanin added a new dimension of complexity. The aim of this study was to summarize current knowledge about, and to get further hints as to the possible function of enteric co-innervation of striated esophageal muscle fibers. Aldehyde fixed rat esophagi were processed for immunocytochemistry for CGRP or VAChT (to demonstrate vagal motor terminals), nNOS/NADPH-d, VIP,
NPY
, and galanin (to demonstrate enteric terminals),
met-enkephalin
, mu opiate receptor, muscarinic receptors m1-3, soluble guanylyl cyclase, and cGMP dependent kinase type I and II. Motor endplates were visualized using fluorochrome tagged alpha-bungarotoxin to label nicotinic receptors, or with AChE histochemistry. Besides light and confocal laser scanning microscopy, immuno electron microscopy was also employed. Up to 80% of motor endplates were co-innervated. In addition to nNOS, VIP,
NPY
, and galanin, many enteric terminals in esophageal motor endplates expressed
met-enkephalin
. Some appeared to stain for the muscarinic m(2) receptor. There was prominent immunostaining for the micro opioid receptor in the sarcolemma at both junctional and extrajunctional sites. Immunostaining for soluble guanylyl cyclase was prominent immediately beneath the clusters of nicotinic receptors. Enteric varicosities and vagal terminals intermingled in motor endplates often without intervening teloglial processes. During ontogeny, initially high co-innervation rates were reduced to adult levels in a cranio-caudally progressing manner. We conclude that, in addition to a possible nitrergic, VIP-,
NPY
-, and galaninergic modulation of neuromuscular transmission by enteric neurons, opioidergic mechanisms could play a role. On the other hand, cholinergic influence on enteric neurons may be exerted also by the nucleus ambiguus via motor endplates, in addition to the input from the dorsal motor nucleus. The observations that enteric nerve fibers contact striated muscle fibers at specialized sites, i.e., motor endplates, and that these contacts appear in an ordered cranio-caudal sequence after cholinergic motor endplates have been established point to a specific function in neuronal control of esophageal muscle rather than to be an unspecific "hangover" from the smooth muscle past of this organ.
...
PMID:Enteric co-innervation of striated muscle fibers in the esophagus: just a "hangover"? 1114 27
Leptin inhibits food intake and increase energy expenditure via an interaction with specific leptin receptors located in the hypothalamus. Leptin receptors have been identified in cocaine and amphetamine-regulated transcript(CART), neuropeptide Y(
NPY
), galanin-containing neurons of the arcuate nucleus, respectively, and in
corticotropin
-releasing hormone(CRH)-containing neurons of the paraventricular nucleus, suggesting that these peptides are mediators of leptin's action in the hypothalamus. Anabolic pathways such as those including
NPY
and galanin promote feeding and are inhibited by leptin, whereas catabolic pathways which include CART and CRH have the opposite effect and are stimulated by leptin. In the current review we examine the significant role of the CART, CRH,
NPY
and galanin in the regulation of energy balance.
...
PMID:[The role of anorectic and orexigenic peptides(CART, NPY etc)]. 1126 91
Leptin and its principal mediators,
NPY
and
alpha-MSH
are postulated to play a pivotal role in energy balance. To determine the possibility of the disturbance in neuropeptides in human obesity and their consequent changes in response to negative energy balance, we evaluated plasma and cerebrospinal fluid (CSF) leptin,
NPY
, and
alpha-MSH
levels in obese women before and after weight loss in comparison with normal control women. Subjects included 16 obese women [mean body mass index (BMI), 35.6 kg/m(2)] before and after weight loss induced by a 2-wk very low caloric diet (800 kcal/d) and 14 normal weight women (mean BMI, 20.4 kg/m(2)). The CSF to plasma leptin ratio in normal weight subjects was 2.3-fold higher than that in obese subjects. After weight loss in obese subjects, plasma leptin levels decreased by 40% and CSF levels decreased by 51%. There was a positive linear correlation between CSF and plasma leptin levels at baseline in obese subjects (r = 0.74, P < 0.05) and a positive logarithmic correlation in normal weight subjects (r = 0.89, P < 0.05) and in obese subjects after weight loss (r = 0.64, P < 0.05). The BMI was negatively correlated with the CSF to plasma leptin ratio (r = -0.86, P < 0.05) in all subjects. Neither the baseline plasma levels nor the baseline CSF levels of
NPY
were different between normal weight subjects and obese subjects. After weight loss, the CSF
NPY
level decreased significantly compared with baseline values in obese subjects. The
alpha-MSH
levels in plasma and CSF did not differ significantly from controls in obese subjects at baseline or after weight loss. Baseline CSF leptin level correlated with neither the baseline CSF
NPY
level nor the baseline CSF
alpha-MSH
level. In conclusion, this study demonstrated that the efficiency of brain leptin delivery is reduced in human obesity and central nervous system leptin uptake involves a combination of a saturable and an unsaturable mechanism. CSF
NPY
and
alpha-MSH
did not differ from controls in human obesity, and the CSF
NPY
level decreased significantly whereas
alpha-MSH
did not differ after weight loss in obese subjects compared with baseline. There was no significant correlation between CSF leptin and CSF
NPY
or
alpha-MSH
. This could be the result of leptin resistance present in human obesity and/or the more complex mechanisms involved in modulating appetite and regulating energy balance in human obesity.
...
PMID:Cerebrospinal fluid and plasma concentrations of leptin, NPY, and alpha-MSH in obese women and their relationship to negative energy balance. 1160 May 52
We have recently shown that
NPY
and
alpha-melanocyte-stimulating hormone
, which potently induce or inhibit feeding, respectively, have opposing modulatory actions on GABAergic synapses in the medial parvocellular region of the paraventricular hypothalamic nucleus (mpPVN). Because this action might underlie the effects of
NPY
on feeding, we have examined the pharmacology of
NPY
responses using electrophysiological recordings. Focal electrical stimulation within the PVN elicited a GABA(A) synaptic response in some mpPVN neurons, which was reversibly inhibited by
NPY
in a concentration-dependent manner (EC(50) = 28 nM).
NPY
did not alter the response to the GABA(A) agonist, muscimol. Agonist responses to
NPY
analogs were not consistent with a single
NPY
receptor subtype; the most subtype selective agonists were less effective than the more broadly selective ones. Antagonist blockade of individual receptor subtypes partly inhibited
NPY
action, while fully blocking effects of selective agonists. Combining Y1 and Y5 antagonists blocked actions of
NPY
entirely, but the Y2 antagonist also completely blocked actions of
NPY
in some neurons.
NPY
inhibits GABA(A) synaptic transmission onto mpPVN neurons, but this can be mediated by three different
NPY
receptors. Controversy regarding the receptor or receptor subtypes involved in
NPY
-mediated feeding may arise from the multiple
NPY
receptors present.
...
PMID:Multiple NPY receptors Inhibit GABA(A) synaptic responses of rat medial parvocellular effector neurons in the hypothalamic paraventricular nucleus. 1179 8
Arcuate nucleus neurons are known to be responsive to a wide array of hormones and nutrients, including leptin, insulin, gonadal steroids and glucose. In addition to potential transport mechanisms, peripheral substances may access these neurons via arcuate cell bodies in and projections to the median eminence, a region considered to be a circumventricular organ. The arcuate is a potent site of leptin action, probably mediating a component of leptin's effects via arcuate neuropeptide Y/agouti-related peptide (
NPY
/AgRP) and
pro-opiomelanocortin (POMC)
neurons, and implicating this structure in the long-term control of energy stores. However, ghrelin, the endogenous ligand of the growth hormone secretagogue receptor, may also stimulate feeding and weight gain, in part through action on receptors in arcuate
NPY
neurons. Since ghrelin is secreted by the stomach upon content depletion, with a half-life of no more than an hour, the arcuate nucleus may also be important in sensing and responding to acute changes in nutrients. We have developed a system for recording from arcuate POMC neurons using a mouse containing a transgene in which the POMC promoter is driving expression of the green fluorescent protein (GFP). In these mice, 99% of the
beta-endorphin
positive neurons express GFP, making whole cell patch clamp recordings from the sparsely distributed POMC neurons facile. All of the POMC neurons appear to be activated by leptin, via two different mechanisms, while approximately 30-50% of the neurons appear to be inhibited by a gamma-melanocyte stimulating hormone (MSH) specific agonist. The latter result suggests that the melanocortin-3 receptor (MC3-R) may act as an autoinhibitory receptor on some POMC neurons. This hypothalamic slice preparation also confirms the responsiveness of arcuate POMC neurons to a wide variety of nutrients and hormones. Thus the arcuate melanocortin system is best described as a conduit of many diverse signals involved in energy homeostasis, with leptin acting tonically to regulate the responsiveness of the circuit to a wide variety of hormones and nutrients.
...
PMID:The arcuate nucleus as a conduit for diverse signals relevant to energy homeostasis. 1184 Feb 18
In amphibians, the secretion of
alpha-MSH
by melanotrope cells is stimulated by TRH and inhibited by
NPY
. We have previously shown that
NPY
abrogates the stimulatory effect of TRH on
alpha-MSH
secretion. The aim of the present study was to characterize the receptor subtypes mediating the action of
NPY
and to investigate the intracellular mechanisms involved in the inhibitory effect of
NPY
on basal and TRH-induced
alpha-MSH
secretion. Y(1) and Y(5) receptor mRNAs were detected by RT-PCR and visualized by in situ hybridization histochemistry in the intermediate lobe of the pituitary. Various
NPY
analogs inhibited in a dose-dependent manner the spontaneous secretion of
alpha-MSH
from perifused frog neurointermediate lobes with the following order of potency porcine peptide YY (pPYY) > frog
NPY
(fNPY) > porcine
NPY
(pNPY)-2-36) > pNPY-(13-36) > [D-Trp(32)]pNPY > [Leu(31),Pro(34)]pNPY. The stimulatory effect of TRH (10(-8)6 M) on
alpha-MSH
release was inhibited by fNPY, pPYY, and [Leu(31),Pro(34)]pNPY, but not by pNPY-(13-36) and [D-Trp(32)]pNPY. These data indicate that the inhibitory effect of fNPY on spontaneous
alpha-MSH
release is preferentially mediated through Y(5) receptors, whereas the suppression of TRH-induced
alpha-MSH
secretion by fNPY probably involves Y(1) receptors. Pretreatment of neurointermediate lobes with pertussis toxin (PTX; 1 microg/ml; 12 h) did not abolish the inhibitory effect of fNPY on cAMP formation and spontaneous
alpha-MSH
release, but restored the stimulatory effect of TRH on
alpha-MSH
secretion, indicating that the adenylyl cyclase pathway is not involved in the action of fNPY on TRH-evoked
alpha-MSH
secretion. In the majority of melanotrope cells, TRH induces a sustained and biphasic increase in cytosolic Ca(2+) concentration. Preincubation of cultured cells with fNPY (10(-7) M) or omega-conotoxin GVIA (10(-7) M) suppressed the plateau phase of the Ca(2+) response induced by TRH. However, although fNPY abrogated TRH-evoked
alpha-MSH
secretion, omega-conotoxin did not, showing dissociation between the cytosolic Ca(2+) concentration increase and the secretory response. Collectively, these data indicate that in frog melanotrope cells
NPY
inhibits spontaneous
alpha-MSH
release and cAMP formation through activation of a Y(5) receptor coupled to PTX- insensitive G protein, whereas
NPY
suppresses the stimulatory effect of TRH on
alpha-MSH
secretion through a Y(1) receptor coupled to a PTX-sensitive G protein-coupled receptor.
...
PMID:Neuropeptide Y inhibits spontaneous alpha-melanocyte-stimulating hormone (alpha-MSH) release via a Y(5) receptor and suppresses thyrotropin-releasing hormone-induced alpha-MSH secretion via a Y(1) receptor in frog melanotrope cells. 1195 50
A chronic minor imbalance between energy intake and energy expenditure may lead to obesity. Both lean and obese subjects eventually reach energy balance and their body weight regulation implies that the adipose tissue mass is "sensed", leading to appropriate responses of energy intake and energy expenditure. The cloning of the ob gene and the identification of its encoded protein, leptin, have provided a system signaling the amount of adipose energy stores to the brain. Leptin, a hormone secreted by fat cells, acts in rodents via hypothalamic receptors to inhibit feeding and increase thermogenesis. A feedback regulatory loop with three distinct steps has been identified: (1) a sensor (leptin production by adipose cells) monitors the size of the adipose tissue mass; (2) hypothalamic centers receive and integrate the intensity of the leptin signal through leptin receptors (LRb); (3) effector systems, including the sympathetic nervous system, control the two main determinants of energy balance-energy intake and energy expenditure. While this feedback regulatory loop is well established in rodents, there are many unsolved questions about its applicability to body weight regulation in humans. The rate of leptin production is related to adiposity, but a large portion of the interindividual variability in plasma leptin concentration is independent of body fatness. Gender is an important factor determining plasma leptin, with women having markedly higher leptin concentrations than men for any given degree of fat mass. The ob mRNA expression is also upregulated by glucocorticoids, whereas stimulation of the sympathetic nervous system results in its inhibition. Furthermore, leptin is not a satiety factor in humans because changes in food intake do not induce short-term increases in plasma leptin levels. After its binding to LRb in the hypothalamus, leptin stimulates a specific signaling cascade that results in the inhibition of several orexigenic neuropeptides, while stimulating several anorexigenic peptides. The orexigenic neuropeptides that are downregulated by leptin are
NPY
(neuropeptide Y), MCH (melanin-concentrating hormone), orexins, and AGRP (agouti-related peptide). The anorexigenic neuropeptides that are upregulated by leptin are
alpha-MSH
(
alpha-melanocyte-stimulating hormone
), which acts on MC4R (melanocortin-4 receptor); CART (cocaine and amphetamine-regulated transcript); and CRH (
corticotropin
-releasing-hormone). Obese humans have high plasma leptin concentrations related to the size of adipose tissue, but this elevated leptin signal does not induce the expected responses (i.e., a reduction in food intake and an increase in energy expenditure). This suggests that obese humans are resistant to the effects of endogenous leptin. This resistance is also shown by the lack of effect of exogenous leptin administration to induce weight loss in obese patients. The mechanisms that may account for leptin resistance in human obesity include a limitation of the blood-brain-barrier transport system for leptin and an inhibition of the leptin signaling pathways in leptin-responsive hypothalamic neurons. During periods of energy deficit, the fall in leptin plasma levels exceeds the rate at which fat stores are decreased. Reduction of the leptin signal induces several neuroendocrine responses that tend to limit weight loss, such as hunger, food-seeking behavior, and suppression of plasma thyroid hormone levels. Conversely, it is unlikely that leptin has evolved to prevent obesity when plenty of palatable foods are available because the elevated plasma leptin levels resulting from the increased adipose tissue mass do not prevent the development of obesity. In conclusion, in humans, the leptin signaling system appears to be mainly involved in maintenance of adequate energy stores for survival during periods of energy deficit. Its role in the etiology of human obesity is only demonstrated in the very rare situations of absence of the leptin signal (mutations of the leptin gene or of the leptin receptor gene), which produces an internal perception of starvation and results in a chronic stimulation of excessive food intake.
...
PMID:Leptin signaling, adiposity, and energy balance. 1207 65
Melanocortin-4 Receptor (MC4R) plays an important role in the regulation of human obesity. It can cooperate with leptin, neuropeptide Y(
NPY
) and
melanocyte-stimulating hormone (MSH)
to regulate body weight and feeding. Inactivation of this receptor by gene targeting in mice results in a maturity onset obesity syndrome associated with hyperphagic, hyperinsulinemia, hyperglycemia, as well as decreased linear growth and adult obesity. Multiple alignments of the sequences from individuals of several pig lines identified a single nucleotide substitution(G-->A) at position 298 of the seventh transmembrane domain. In present study, polymorphism distribution of MC4R gene fragment in resource population was studied using PCR-RFLP method based on the enzyme Taq I. The genotype was analyzed with the phenotype of the slaughtered individuals. The results showed that the frequencies of MC4R genotype varied in different breeds. The correlation analysis demonstrated the genotype of MC4R was in significant relation with back-fat thickness on thorax-waist, buttock and the average back-fat thickness, as well as with the width and area of longissmus dorsi (LD), and the percentage of skin. MC4R gene plays a role mainly in the pattern of dominant effect, and all the additive effects were not significant.
...
PMID:[Molecular screening of MC4R gene and association with fat traits in pig resource family]. 1209 26
Body reserves (long-term) and food intake (short-term) both contribute nutritional feedback to the hypothalamus. Reproductive neuroendocrine output (GnRH/LH) is stimulated by increased food intake and not by high adiposity in sheep, but it is unknown whether appetite-regulating hypothalamic neurons show this differential response. Castrated male sheep (Scottish Blackface) with oestradiol implants were studied in two 4 week experiments. In Experiment 1, sheep were fed to maintain the initial body condition (BC) score of 2.0+/-0.00 (lower BC (LBC), n=7) or 2.9+/-0.09 (higher BC (HBC), n=9), and liveweight of 43+/-1.1 and 59+/-1.6 kg respectively. LBC and HBC sheep had similar mean plasma LH concentration, pulse frequency and amplitude, but HBC animals had higher mean plasma concentrations of insulin (P<0.01), leptin (P<0.01) and glucose (P<0.01). Gene expression (measured by in situ hybridisation) in the hypothalamic arcuate nucleus (ARC) was higher in LBC than HBC sheep for neuropeptide Y (
NPY
; 486% of HBC, P<0.01), agouti-related peptide (AGRP; 467%, P<0.05) and leptin receptor (OB-Rb; 141%, P<0.05), but lower for cocaine- and amphetamine-regulated transcript (CART; 92%, P<0.05) and similar between groups for
pro-opiomelanocortin (POMC)
. In Experiment 2, sheep with initial mean BC score 2.4+/-0.03 and liveweight 55+/-0.8 kg were fed a liveweight-maintenance ration (low intake, LI, n=7) while sheep with initial mean BC score 2.0+/-0.03 and liveweight 43+/-1.4 kg were fed freely so that BC score increased to 2.5+/-0.00 and liveweight increased to 54+/-1.4 kg (high intake, HI, n=9). Compared with LI, HI sheep had higher mean plasma LH (P<0.05), baseline LH (P<0.01) and pulse amplitude (P<0.01) and showed a trend towards higher pulse frequency. Although there were no differences in final mean plasma concentrations, there were significant increases over time in mean concentrations of insulin (P<0.001), leptin (P<0.05) and glucose (P<0.001) in HI sheep. Gene expression for AGRP in the ARC was higher in HI than LI animals (453% of LI; P<0.05), but expression levels were similar for
NPY
, OB-Rb, CART and POMC. Thus, the hypothalamus shows differential responses to steady-state adiposity as opposed to an increase in food intake, in terms of both reproductive neuroendocrine activity and hypothalamic appetite-regulating pathways. Differences in hypothalamic gene expression were largely consistent with contemporary levels of systemic leptin and insulin feedback; however, increased nutritional feedback was stimulatory to GnRH/LH whereas constant high feedback was not. The hypothalamus therefore has the ability to retain a nutritional memory that can influence subsequent responses.
...
PMID:Contrasting effects of different levels of food intake and adiposity on LH secretion and hypothalamic gene expression in sheep. 1242 36
The recently discovered hormone ghrelin, which is secreted from the stomach during fasting and hypoglycemia opposes the homeostatic functions of leptin by increasing food intake and decreasing energy expenditure. The hypothalamic arcuate nucleus (Arc) mediates the effects of leptin and contains a high density of ghrelin receptors. The leptin- and ghrelin-responsive network involves the hypothalamic neuropeptide Y/alpha-melanocyte stimulating hormone (
NPY
/
alpha-MSH
) system. In the rat, neurons expressing the orexigenic peptide
NPY
are mainly located in the ventromedial Arc (ArcM), while
pro-opiomelanocortin (POMC)
neurons, synthesizing the anorectic peptide
alpha-MSH
, predominate in the ventrolateral Arc (ArcL). In extracellular single unit recordings from in vitro slice preparations of the Arc, superfusion of ghrelin (10(-8) M) exerted predominantly excitatory effects on ArcM neurons (73%, n=93), while a high number ArcL neurons were inhibited in response to ghrelin (42%, n=43). The excitatory effect of ghrelin on neuronal activity was postsynaptic since it was unaffected by synaptic blockade (low Ca(2+)/high Mg(2+) solution). In contrast, the inhibitory response in the ArcL was abolished by the blockade of synaptic interactions indicating a presynaptic mechanism. These results indicate that circulating ghrelin may oppose the actions of leptin by directly activating
NPY
-neurons of the ArcM and by indirectly inhibiting POMC neurons of the ArcL.
...
PMID:Site-specific effects of ghrelin on the neuronal activity in the hypothalamic arcuate nucleus. 1268 88
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