Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01189 (beta-endorphin)
 21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The gas nitric oxide (NO) is an important messenger in brain signaling. Along with many other functions, NO is thought to influence the expression and/or release of various hypothalamic hormones (corticotropin-releasing hormone (CRH), gonadotropin-releasing hormone (GnRH) and vasopressin). To learn more about the role of NO in neuroendocrine mechanisms, we studied in mutant mice lacking neuronal isoform of NO synthase (nNOS) the cellular expression of CRH, neurophysin (the carrier protein of vasopressin/oxytocin) and pro-opiomelanocortin (POMC), as well as of the POMC-derived peptides beta-endorphin (beta-END), alpha-melanocyte-stimulating hormone (alpha-MSH) and corticotropin (ACTH) by use of immunohistochemistry and in situ hybridization. Additionally, the remaining NO-generating capacities of the nNOS minus mice were investigated by NADPH-diaphorase histochemistry and citrulline immunohistochemistry as well as by immunohistochemical localization and Western blot analysis of endothelial NOS (eNOS) and nNOS isoforms. Amongst all hypothalamic peptides under investigation, only beta-END was found to be altered in mutant mice. A morphometric analysis of beta-END producing neurons of the arcuate nucleus revealed that significantly less cells were immunoreactive in mutant mice, whereas the expression of the precursor POMC as well as of other POMC-derived peptides was found to be unchanged. In addition to that, fewer beta-END-immunoreactive fibers were found in the paraventricular nucleus of nNOS minus mice in comparison to wild-type animals. Hence, the reduction of hypothalamic beta-END is probably a posttranslational event that might reflect a disturbed endorphinergic innervation of those hypothalamic neurons which normally express nNOS.
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PMID:Expression of hypothalamic peptides in mice lacking neuronal nitric oxide synthase: reduced beta-END immunoreactivity in the arcuate nucleus. 987 4

The heptadecapeptide nociceptin, also known as Orphanin FQ, is a recently discovered endogenous ligand for the opioid-like G-protein coupled receptor, ORL1. In the present study, responses to nociceptin were investigated in isolated pressurized resistance arteries from the rat mesenteric vascular bed. Nociceptin in bath concentrations of 10(-9)-10(-6) M induced concentration-dependent increases in arterial diameter when the artery was precontracted with U46619; and administration of the structurally related opioid agonists, dynorphin A and met-enkephalin, had no effect on arterial diameter. Vasodilator responses to nociceptin were not altered by the opioid receptor antagonist naloxone or by the nitric oxide synthase inhibitor N(omega)-nitro-L-arginine. Responses to nociceptin were not altered by the muscarinic receptor blocking agent atropine or phentolamine, or the calcitonin gene-related peptide (CGRP) receptor antagonist CGRP-(8-37). These data suggest that nociceptin has direct vasodilator activity that is not dependent upon the activation of a traditional opioid receptor, muscarinic or CGRP receptors, an inhibitory effect on the adrenergic nervous system, or the release of nitric oxide in isolated resistance arteries from the rat mesentery.
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PMID:Nociceptin, a novel endogenous ligand for the ORL1 receptor, dilates isolated resistance arteries from the rat. 987 48

Putative involvement of endogenous nitric oxide (NO) in the corticotropin-releasing hormone (CRH, 1 microg/kg i.p.)- and vasopressin (AVP, 5 microg/kg i.p.)-induced ACTH and corticosterone secretion was investigated in both non-stressed and crowded rats. The NO synthase blocker Nomega-nitro-l-arginine (l-NNA, 2 mg/kg i.p. ) significantly augmented the AVP-induced ACTH and corticosterone secretion in control and stressed rats, but it increased the CRH-induced ACTH response only in control rats. Crowding stress did not affect the l-NNA evoked increase in AVP-induced hormone responses, but it abolished the CRH-induced ACTH response.
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PMID:Social stress inhibits the nitric oxide effect on the corticotropin-releasing hormone- but not vasopressin-induced pituitary-adrenocortical responsiveness. 988 72

Anaesthetized rats, endotracheally intubated and mechanically ventilated with room air, were subjected to a 5-min period of asphyxia by turning off the ventilator. The ventilator was then turned back on and, simultaneously, the animals were treated with either the adrenocorticotropin fragment 1-24 [ACTH-(1-24), 160 microg/kg in a volume of 1 ml/kg i.v.] or an equivalent volume of saline. Nitric oxide (NO)-haemoglobin formation was detected ex vivo in arterial blood by electron spin resonance spectrometry; arterial blood pressure, electrocardiogram (ECG) and electroencephalogram (EEG) were monitored for a 60-min observation period, or until prior death. During asphyxia, there was massive formation of NO (red cell concentrations 40-80 microM), associated with a dramatic fall in mean arterial pressure and pulse pressure, marked bradycardia and ECG signs of ischaemic damage, as well as an isoelectric EEG. Treatment with ACTH-(1-24) produced a prompt (within 15 min) and long-lasting drop in NO blood levels, associated with an almost immediate (within 1 min) restoration of cardiovascular function and with a more gradual recovery of EEG, which became normal after 3040 min; all parameters remained stable throughout the 60-min observation period. In saline-treated rats, on the other hand, there was a further increase in NO blood levels, as detected 3 min after treatment, and all died within 5-8 min. Moreover, pretreatment and treatment with S-methylisothiourea sulphate (SMT, 3 mg/kg i.v.), a relatively specific inhibitor of inducible NO synthase, inhibited NO formation, but did not affect the mortality rate (100% within 5-8 min). The present results provide the first evidence that prolonged asphyxia is associated with high blood concentrations of NO, and that the life-saving effect of melanocortin peptides in severe hypoxic conditions is associated with a complete normalization of NO blood levels. However, the lack of SMT protection in this experimental model seems to rule out the possibility that the ACTH-(1-24)-induced resuscitation is due to an effect on NO overproduction.
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PMID:High blood levels of nitric oxide in rats subjected to prolonged respiratory arrest and their modulation during adrenocorticotropin-induced resuscitation. 993 51

beta-Endorphin blocks release of luteinizing hormone (LH)-releasing hormone (LHRH) into the hypophyseal portal vessels by stimulating mu-opiate receptors, thereby inhibiting secretion of LH. LHRH release is controlled by release of nitric oxide from nitricoxidergic (NOergic) neurons in the basal tuberal hypothalamus. To determine whether beta-endorphin exerts its inhibitory action on this NOergic pathway, medial basal hypothalami (MBH) from male rats were incubated with beta-endorphin (10(-8) M). beta-Endorphin decreased basal secretion of LHRH, and significantly inhibited the release of prostaglandin E2 (PGE2), a known stimulant of LHRH release. Incubation of MBH with beta-endorphin at various concentrations (10(-9)-10(-6) M) in vitro decreased the activity of NO synthase (NOS) (measured by the conversion of [14C]arginine to labeled citrulline). Conversely, the activity of NOS was increased by the mu-receptor antagonist, naltrexone (10(-8) M). Not only was the inhibitory action of beta-endorphin on LHRH and PGE2 release blocked by naltrexone (10(-8) M), but it increased NOS activity and LHRH and PGE2 release. beta-Endorphin also stimulated gamma-aminobutyric acid (GABA) release. Because GABA inhibits both nitroprusside (NP-induced PGE2 and LHRH release by blocking the activation of cyclooxygenase by NO, this is another mechanism by which beta-endorphin inhibits NP-induced PGE2 and LHRH release. The results indicate that beta-endorphin stimulates mu-opioid receptors on NOergic neurons to inhibit the activation and consequent synthesis of NOS in the MBH. beta-Endorphin also blocks the action of NO on PGE2 release and, consequently, on LHRH release, by stimulating GABAergic inhibitory input to LHRH terminals that blocks NO-induced activation of cyclooxygenase and consequent PGE2 secretion.
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PMID:beta-Endorphin blocks luteinizing hormone-releasing hormone release by inhibiting the nitricoxidergic pathway controlling its release. 999 91

In this research we examined the mechanisms by which ethanol (EtOH) inhibits luteinizing hormone-releasing hormone (LHRH) release from incubated medial basal hypothalamic explants. EtOH (100 mM) stimulated the release of two inhibitory neurotransmitters: gamma-aminobutyric acid (GABA) and beta-endorphin. EtOH also inhibited NO production, indicative of a suppression of nitric oxide synthase (NOS) activity. This inhibition was reversed by naltroxone (10(-8) M), a micro-opioid receptor blocker, indicating that the inhibition of NOS by EtOH is mediated by beta-endorphin. EtOH also blocked N-methyl-d-aspartic acid-induced LHRH release, but the blockade could not be reversed by either the GABA receptor blocker, bicuculline (10(-5) M), naltroxone (10(-8) M), or both inhibitors added together. However, increasing the concentration of naltrexone (10(-6) M) but not bicuculline (10(-4) M) reversed the inhibition. When we lowered the concentration of EtOH (50 mM), the EtOH-induced blockade of LHRH release could be reversed by either bicuculline (10(-5) M), naltroxone (10(-8) M), or the combination of the two blockers. Therefore, GABA is partially responsible for the blockade of N-methyl-d-aspartic acid-induced LHRH release. The block by GABA was exerted by inhibiting the activation of cyclooxygenase by NO, because it was reversed by prostaglandin E(2), the product of activation of cyclooxygenase. Because the inhibition caused by the higher concentration of EtOH could not be reduced by bicuculline (10(-4) M) but was blocked by naltroxone (10(-6) M), the action of alcohol can be accounted for by stimulation of beta-endorphin neurons that inhibit LHRH release by inhibition of activation of NOS and stimulation of GABA release.
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PMID:Inhibitory pathways and the inhibition of luteinizing hormone-releasing hormone release by alcohol. 1068 96

The proventriculus constitutes the glandular region of the chicken stomach. This organ is innervated by two parasympathetic networks, the myenteric and submucous plexus, and here we present a systematic study of this system by immunohistochemistry and electron microscopy. All the neurons and fibres were positive for the neural markers, protein gene product 9.5 and the amidating enzymes. Immunoreactivities for the constitutive neuronal isoform of the enzyme nitric oxide synthase and the vasoactive intestinal peptide were present in neuronal bodies suggesting an intrinsic origin for the similarly immunoreactive fibres found in the proventriculus. On the other hand, immunoreactivity to gastric inhibitory peptide was only found in varicose fibres making contact with the blood vessels and the glandular epithelium, but never in the neuronal somas, suggesting that this substance may be provided by an extrinsic nervous system whose neuronal bodies are located elsewhere. Electron microscopy revealed frequent neuromuscular and neuroepithelial connections in the muscle layers, the wall of the blood vessels and the epithelium. In addition, synapsis-like structures were identified in the proximity of cells belonging to the diffuse endocrine system, providing a new example of neuroendocrine contacts. No positivity was found for antibodies against other neural substances including somatostatin, peptide histidine-isoleucine, peptide tyrosine-tyrosine, neuropeptide tyrosine, bombesin, met-enkephalin, serotonin, substance P, galanin, calcitonin gene-related peptide and S-100 protein.
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PMID:The nervous system of the chicken proventriculus: an immunocytochemical and ultrastructural study. 1080 86

During hemorrhagic shock there is a massive overproduction of nitric oxide (NO). In such conditions, the intravenous (i.v.) injection of melanocortin peptides in nanomolar amounts produces a long-lasting restoration of cardiovascular and respiratory functions associated with the normalization of NO blood levels. To clarify the mechanism of such melanocortin-induced inhibition of NO overproduction, the influence of the adrenocorticotropin fragment 1-24 [ACTH-(1-24)] on the NO synthesizing activity of rat macrophages was studied in vitro. Nitrite production, an indicator of NO synthesis, was measured in the supernatant of rat macrophages whose inducible NO synthase (NOS II, iNOS) had been stimulated by the addition of S. enteritidis lipopolysaccharide (LPS, 50 microg/ml). ACTH-(1-24) (25, 50 and 100 nM) inhibited nitrite production when incubated together with LPS, but had no effect when applied 6 h after LPS. Further, the effect of ACTH-(1-24) on the expression of iNOS mRNA in rat macrophages activated with LPS was studied by means of a reverse transcriptase-polymerase chain reaction assay. ACTH-(1-24) (25, 50 and 100 nM), applied together with LPS, dose-dependently suppressed iNOS gene activation. The present data suggest that the melanocortin-induced normalization of NO blood levels during hemorrhagic shock is due, at least in part, to a direct inhibition of iNOS induction, at the level of mRNA transcription.
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PMID:Adrenocorticotropin inhibits nitric oxide synthase II mRNA expression in rat macrophages. 1085 45

Nitric oxide (NO) as well as beta-endorphin are involved in the neuroendocrine control of gonadotropin-releasing hormone (GnRH) secretion. Recently, morphological and microdialysis experiments have suggested that beta-endorphin may exert an inhibitory influence on NO release in the preoptic area of rat hypothalamus. The present study determines if the mu opioid receptor mRNA is expressed in neuronal NO synthase (nNOS)-immunopositive neurons and if this expression varies among the regions of the basal forebrain being examined. We found, through the use of immunohistochemical and in situ hybridization techniques, that the mu opioid receptor mRNA is expressed in a representative subpopulation of nNOS-immunoreactive neurons in the rat preoptic area. Interestingly, the mu opioid receptor mRNA/nNOS-immunoreactive coexpression is predominant in the rostral and median preoptic area, containing most of GnRH cell bodies. These results strongly suggest that beta-endorphin, via an action through mu opioid receptors, may directly participate in the regulation of NO production in the preoptic area. Our results strengthen the hypothesis that beta-endorphin may participate in GnRH neuronal modulation at the cell body level by regulating NO release from the interneurons of the preoptic area that express nNOS.
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PMID:Mu opioid receptor mRNA expression in neuronal nitric oxide synthase-immunopositive preoptic area neurons. 1103 28

Subjects with human immunodeficiency virus type 1 (HIV-1) infection display increased activity of the hypothalamo-pituitary-adrenal (HPA) axis, which may play a role in both HIV-related neurodegenerative processes and disease progression. It has been speculated that the HIV coat protein gp120 may be responsible for these changes, and previous experimental evidence in both transgenic and nontransgenic mice supports this view. We speculated that one of the effects of gp120 in the CNS is to act within the hypothalamus to affect both corticotropin-releasing hormone (CRH) and arginine vasopressin (AVP), the principal regulators of HPA axis. We therefore administered i.p. gp120 (100 ng/rat) or vehicle to male Wistar rats and then detected Fos protein (an index of neuronal activation), CRH, and AVP immunoreactivity in the cellular compartments of the hypothalamic paraventricular nucleus (PVN). In addition, we tested the direct effect of various concentrations of gp120 on the release of CRH and AVP from rat hypothalamic explants maintained in vitro. Any modulation of gp120 effects by nitric oxide (NO) pathways was also sought by coadministering i.p. to rats or adding to the hypothalamic preparations the NO synthase inhibitor N(G)-methyl-l-arginine (l-NMMA). Gp120 induced the expression of Fos protein in both the parvo- and the magnocellular PVN, which was significantly attenuated by l-NMMA 10(-6) nM/L (P < 0.001 vs gp120 alone). Double immunochemistry showed costaining for Fos protein and CRH or AVP in the PVN following gp120; the number of double-labeled CRH and AVP cells for Fos protein was markedly reduced (P < 0.001) by coadministration of l-NMMA 10(-6) nM/L. In the in vitro studies, addition of gp120 to the hypothalamic explants in the dose range of 10 pM-1 nM resulted in a clear stimulation of both CRH and AVP release (P < 0.05-0.001 compared to control); in the presence of l-NMMA at 10-fold higher concentrations the stimulatory effect of gp120 on the release of both peptides was completely lost. It would therefore appear that gp120 activates CRH and AVP-producing neurons in the hypothalamic PVN and stimulates the release of both peptides in vitro via NO-dependent mechanisms. These findings, in line with previous evidence, further suggest that the increased activity of the HPA axis associated with HIV infection may be of central origin, due to the effects of gp120 on hypothalamic CRH and AVP release.
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PMID:Stimulating effect of HIV-1 coat protein gp120 on corticotropin-releasing hormone and arginine vasopressin in the rat hypothalamus: involvement of nitric oxide. 1108 2


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