UNIPROT:P01189 - FACTA Search

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Query: UNIPROT:P01189 (beta-endorphin)
21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interleukin 6 (IL-6) and tumor necrosis factor (TNF) are released from the zona glomerulosa of rat adrenal glands. The release of these cytokines from adrenal cells is regulated by interleukin 1 beta (IL-1 beta) and lipopolysaccharide (LPS), which are involved in the immune and inflammatory responses. Adrenocorticotropic hormone (ACTH) and angiotensin II, hormones that regulate the adrenal cortex, likewise regulate release of cytokines from adrenal glands. Dopamine inhibits aldosterone release from the adrenal cortex. Therefore, effects of dopamine on IL-6 and TNF release from rat adrenal zona glomerulosa were investigated. Primary cultures of rat adrenal zona glomerulosa cells were exposed to test agents and IL-6 and TNF release determined by the 7TD1 and WEHI bioassays, respectively. Dopamine increased basal IL-6 release and potentiated IL-6 release stimulated by ACTH, LPS or IL-1 beta. Dopamine inhibited basal and secretagogue-stimulated (LPS and IL-1 beta) TNF release. These effects of dopamine were mediated by D2 receptors because N-0437, a D2 agonist, had effects on TNF and IL-6 release identical to those of dopamine. Therefore, dopamine, through D2 receptors, regulates the release of IL-6 and TNF from adrenal cells. Because TNF and IL-6 regulate adrenal steroid release, these cytokines may serve as autocrine or paracrine mediators of adrenal gland function.
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PMID:Dopamine increases interleukin 6 release and inhibits tumor necrosis factor release from rat adrenal zona glomerulosa cells in vitro. 866 82

Intact adult male rats fed an alcohol [ethanol (EtOH)] diet for 10 days show blunted adrenocorticotropic hormone (ACTH) release in response to immune signals such as the cytokine interleukin-1 beta (IL-1 beta) and endotoxin [lipopolysaccharide (LPS)], as well as to physical stress (mild electroshocks). The mechanisms responsible for this effect remain poorly understood, but we have recently reported that decreased pituitary responsiveness to vasopressin (VP) might play a role. In naive rats, nitric oxide (NO) exerts a restraining influence on the response of the hypothalamic-pituitary (H-P) axis to cytokines and VP. The ability of long-term EtOH treatment to increase glutamate receptors, and thus NO formation, prompted us to test the hypothesis that abnormally high NO concentrations might modulate the influence of the drug. Blockade of the activity of NO synthase (NOS), the enzyme responsible for NO formation, with the arginine derivative L-N omega nitro-L-arginine-methylester (L-NAME), augmented the ACTH response to IL-1 beta or LPS in both control (C) and EtOH-fed (E) rats. Indeed, after L-NAME treatment, ACTH concentrations were statistically comparable in C and E animals injected with endotoxin or a large dose of IL-1 beta. VP-induced ACTH secretion also became comparable in both experimental groups after blockade of NOS activity. In contrast, the decreased response of the H-P axis of E animals to shocks was only slightly ameliorated, compared with that of C rats. It is therefore possible that changes in the NOergic tone induced by alcohol play a role in the decreased response of the H-P axis to cytokines, possibly in part by altering the stimulatory action of VP on the corticotrophs. On the other hand, in E rats NO seems to exert only a minimal influence on the central nervous system circuits activated by shocks.
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PMID:Adult male rats exposed to an alcohol diet exhibit a blunted adrenocorticotropic hormone response to immune or physical stress: possible role of nitric oxide. 874 13

The purpose of this study was to investigate whether the ovulatory cycle interferes with the effect of the acute-phase response of a systemic immune activation on the transcription of the immediate early gene c-fos and the stress-related neuropeptide corticotropin-releasing hormone (CRH) in the brains of female rats. Throughout the day of proestrus and diestrus-2 (09.00, 12.00, 15.00 h), adult rats received either a single intraperitoneal injection of the endotoxin lipopolysaccharide (LPS, 200 micrograms/100 g body weight) or the vehicle solution and were killed 3 h later (12.00, 15.00, 18.00 h). Frozen brains were mounted on a microtome, cut in 30-micron slices and then processed for the detection of c-fos mRNA and CRH primary transcript (heteronuclear [hnRNA]) by means of in situ hybridization histochemistry using 35S-labeled exonic and intronic probes, respectively. LPS injection induced a profound expression of c-fos mRNA in the several nuclei and areas of the brain, such as the organum vasculosum of the lamina terminalis/medial preoptic area, supraoptic nucleus, parvo- and magnocellular divisions of the hypothalamic paraventricular nucleus (PVN), arcuate nucleus/median eminence, central nucleus of the amygdala, locus coeruleus, nucleus of the solitary tract, area postrema and ventrolateral medulla. Interestingly, the intensity of expression of c-fos mRNA depended on the phase of the estrous cycle and/or the time of the day. Indeed, in several of the structures described above, LPS induced a more pronounced c-fos signal in the morning of proestrus than the afternoon and diestrus-2. CRH primary transcript was significantly increased by LPS treatment selectively in the parvocellular division of the PVN and the highest hybridization signal was observed in the morning of proestrus, a period where a large number of c-fos-positive cells were colocalized in CRH-immunoreactive neurons. A significant increase in the levels of AVP hnRNA was also observed in the parvocellular PVN of animals sacrificed at noon and early afternoon of both pro- and diestrus days. These results provide evidence that the neuroendocrine events regulating the reproductive cyclicity influence the endotoxin-induced activation of the early gene c-fos in selective structures of the brain and the stimulation of neurons directly involved in the regulation of the HPA axis. It is possible that the gonadal status of female mammals plays a crucial role in the integration of the organism in the presence of foreign material in preventing an exaggerated immune response during particular phases of the ovulatory cycle. The capacity of female animals to modulate the intensity through which the neuronal circuitry activated during immunogenic processes is likely to be an elegant sexual dimorphism participating in the adjustment of the responses in line with the physiological demand.
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PMID:Influence of the estrous cycle on c-fos and CRH gene transcription in the brain of endotoxin-challenged female rats. 903 72

Tumor necrosis factor (TNF-alpha) underlies pathological processes and functional disturbances in acute and chronic neurological disease and injury. The neuroimmunomodulatory peptide alpha-MSH modulates actions and production of proinflammatory cytokines including TNF-alpha, but there is no prior evidence that it alters TNF-alpha induced within the brain. To test for this potential influence of the peptide, TNF-alpha was induced centrally by local injection of bacterial lipopolysaccharide (LPS). alpha-MSH given once i.c.v. with LPS challenge, twice daily intraperitoneally (i.p.) for 5 d between central LPS injections, or both i.p. and centrally, inhibited production of TNF-alpha within brain tissue. Inhibition of TNF-alpha protein formation by alpha-MSH was confirmed by inhibition of TNF-alpha mRNA. Plasma TNF-alpha concentration was elevated markedly after central LPS, indicative of an augmented peripheral host response induced by the CNS signal. The increase was inhibited by alpha-MSH treatments, in relation to inhibition of central TNF-alpha. Presence within normal mouse brain of mRNA for the alpha-MSH receptor MC-1 suggests that the inhibitory effects of alpha-MSH on brain and plasma TNF-alpha might be mediated by this receptor subtype. The inhibitory effect of alpha-MSH on brain TNF-alpha did not depend on circulating factors because the effect also occurred in brain tissue in vitro. This indicates that alpha-MSH can act directly on brain cells to inhibit their production of TNF-alpha. If central TNF-alpha contributes to pathology in CNS disease and injury, and promotes inflammation in the periphery, agents that act on brain alpha-MSH receptors should decrease the pathological TNF-alpha reaction and promote tissue survival.
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PMID:alpha-MSH modulates local and circulating tumor necrosis factor-alpha in experimental brain inflammation. 904 42

Bacterial infection causes fever, an adaptive but potentially self-destructive response, in the host. Also activated are counterregulatory systems such as the pituitary-adrenal axis. Antipyretic roles have also been postulated for certain endogenous central neuropeptides, including the melanocortins (alpha-MSH-related peptides). To test the hypothesis that endogenous central melanocortins have antipyretic effects mediated by central melanocortin receptors (MCRs), we determined the effect of intracerebroventricular injection of a synthetic MCR antagonist, Ac-Nle4,c-[Asp5,DNal(2')7,Lys10]alpha-MSH(4-10)-NH2 (SHU-9119) in endotoxin-challenged rats. The efficacy and specificity of SHU-9119 as an MCR antagonist in the rat was first validated in vitro and in vivo. In vitro, in heterologous cells expressing either rat MC3-R or MC4-R, the major MCR subtypes expressed in brain, SHU-9119 showed no intrinsic agonism, but it inhibited alpha-MSH-induced cAMP accumulation (IC50 = 0.48 +/- 0.19 and 0.41 +/- 0.28 nM, respectively) and [125I]-[Nle4,DPhe7]-alpha-MSH binding (IC50 = 1.0 +/- 0.1 and 0.9 +/- 0.3 nM, respectively). In vivo, exogenous alpha-MSH (180 pmol) inhibited fever in rats when administered intracerebroventricularly 30 min after Escherichia coli lipopolysaccharide (LPS) (25 microg/kg, i.p.). When co-injected with alpha-MSH, SHU-9119 (168 pmol, i.c.v.) prevented the antipyretic action of exogenous alpha-MSH. In contrast, neither alpha-MSH nor SHU-9119, alone or in combination, affected body temperatures in afebrile rats. In LPS-treated rats, intracerebroventricular injection of SHU-9119 significantly increased fever, whereas intravenous injection of the same dose of SHU-9119 had no effect. Neither intracerebroventricular nor intravenous SHU-9119 significantly affected LPS-stimulated plasma ACTH or corticosterone levels. The results indicate that endogenous central melanocortins exert an antipyretic influence during fever by acting on MCRs located within the brain, independent of any modulation of the activity of the pituitary-adrenal axis.
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PMID:Antipyretic role of endogenous melanocortins mediated by central melanocortin receptors during endotoxin-induced fever. 909 67

Chronically prepared rats were injected intravenously with live Escherichia coli in doses from approximately 10(5) to approximately 10(9) colony-forming units (CFU). Significant dose-related increase in plasma adrenocorticotropin and corticosterone occurred after approximately 10(7) CFU. Fever occurred after approximately 10(7) CFU but not after approximately 10(9) CFU. These responses changed significantly but were not blocked completely when > 94% of the viable E. coli was removed from the inoculates. The remaining endotoxin activity in the inoculates resembled lipopolysaccharide (LPS) extracted from the same strain of E. coli on electrophoretic gels. Plasma endotoxin increased for > or = 240 min to 5.1 +/- 0.9 endotoxin units (EU)/ml after approximately 10(7) CFU and to 440 +/- 59 EU/ml after approximately 10(9) CFU. Endotoxin at approximately 10(9) CFU caused death within 24 h that was not predicted by the total activity of endotoxin that was injected. In contrast, extracted LPS with its strain and total activity matched to approximately 10(7) CFU mimicked the responses to this nonfatal dose. The total endotoxin activity of the injected bacteria appears to account for the effects of nonfatal doses of E. coli but not for the effects of fatal doses.
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PMID:Role of endotoxin in the response to experimentally induced bacteremia in chronically prepared rats. 917 48

1. Evidence supporting the presence in the invertebrate nervous system of a class of glial cells resembling vertebrate microglia was obtained in the freshwater snail Planorbarius corneus. These cells are easily identified by their immunopositivity to anti-pro-opiomelanocortin (POMC)-derived peptide antibodies. 2. Invertebrate microglia, as in vertebrates, exhibit macrophage-like activity in vivo and in cell cultures. These cells respond to the trauma of ganglionic excision and their organotypic culture by leaving their location around neurons and moving to the lesion site from which they migrate in the culture dish. 3. In vitro, these microglia undergo conformational changes and show phagocytic properties in the presence of bacteria or lipopolysaccharide. The activated cells also express tumor necrosis factor-alpha-like material and an increase in nitric oxide synthase, as shown by immunocytochemistry. 4. The inhibitory effect of morphine on the mobility and phagocytic activity of invertebrate microglia provide additional functional evidence for a possible role of opiate-like compounds in downregulating immunoregulatory processes, as also observed in the circulating immunocytes.
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PMID:Opiate signaling regulates microglia activities in the invertebrate nervous system. 919 91

Novel corticotropin-releasing hormone receptor (CRHR), designated type-2alpha CRHR (CRHR-2alpha), was recently cloned and functionally characterized. In situ hybridization study revealed that CRHR-2alpha mRNA had a distinct distribution from type-1 CRHR (CRHR-1) mRNA in the rat brain. Interestingly, CRHR-2alpha mRNA showed a relatively high expression in the hypothalamic paraventricular nucleus (PVN) even under unstressful condition. This may reflect the important role of CRHR-2alpha in the autoregulation of CRH secretion in the PVN. To determine the regulation of CRHR-2alpha mRNA expression in the PVN, we examined the alteration of CRHR-2alpha mRNA levels in the PVN in rats with lipopolysaccharide (LPS) injection, corticosterone (CORT) administration or adrenalectomy and compared with that of CRHR-1 mRNA, using in situ hybridization histochemistry. I.p. LPS injection (50 microg) induced a significant increase in PVN CRHR-1 mRNA at 3 and 6 h whereas CORT administration (10 mg/day for 12 days) or adrenalectomy (sacrificed 7 days after surgery) decreased CRHR-1 mRNA levels in the PVN. These alterations in PVN CRHR-1 mRNA are consistent with previous reports. In contrast, CRHR-2alpha mRNA levels in the PVN were not altered by any of these treatments. These results indicate that CRHR-1 and CRHR-2alpha mRNA are differentially regulated in the PVN. Further study will be necessary to elucidate the CRHR-2alpha function in the PVN.
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PMID:Differential regulation of type-1 and type-2alpha corticotropin-releasing hormone receptor mRNA in the hypothalamic paraventricular nucleus of the rat. 922 14

Nitric oxide synthase (NOS)-containing neurons are found in many loci throughout the central nervous system, which include the cerebral cortex, the cerebellum, the hippocampus, and the hypothalamus. NO plays a very important role in control of neuronal activity in all of these areas by diffusing into neurons where it activates soluble guanylate cyclase (sGC) leading to generation of cyclic guanosine monophosphate (cGMP) and cyclooxygenase 1 leading to generation of prostaglandins. Both of these active agents are involved in mediating the actions of NO, the first gaseous transmitter. In the cerebellum, NO is extremely important and it is also thought to mediate long-term potentiation in the hippocampus. Various stresses and corticoids have been shown in monkeys and also in rodents to cause neuronal cell death. This may be via the stimulation of glutamic acid release, which by N-methyl-D-aspartate (NMDA) receptors causes release of NO, which can lead to neuronal cell death. In the hypothalamus,. NO stimulates corticotropin-releasing hormone (CRH), prolactin releasing factor, growth hormone-releasing hormone (GHRH), and somatostatin, lutenizing hormone-releasing hormone (LHRH), but not follicle stimulating hormone-releasing factor (FSHRF) release. In situations of increased release of NO in the hypothalamus, it could cause neuronal cell death. Following bacterial or viral infections, toxic products of the ineffective agents, such as bacterial lipopolysaccharide (LPS), circulate to the brain, where they induce interleukin-1 and iNOS mRNA and synthesis. After several hours delay, massive quantities of NO are released. Induction of iNOS occurs in the choroid plexus, meninges, in circumventricular organs, and in large numbers of iNOS neurons in the arcuate and paraventricular nuclei. The large amounts of NO released by iNOS may well produce death not only of neurons but also glial. Repeated bouts of systemic infection even without direct neural involvement could result in induction of iNOS in the central nervous system and lead to large fall out of neurons in hippocampus to impair memory, hypothalamus to decrease fever, and neuroendocrine response to infection, and could play a role in the pathogenesis of degenerative neuronal diseases of aging, such as Alzheimers. The largest induction of iNOS occurs in the anterior pituitary and pineal glands. The damage to the pituitary could also impair responses to stress and infection, and the release of NO during infection could be responsible for the degenerative changes in the pineal and diminished release of melatonin, an antioxident, and consequently, an antiaging hormone, that occur with age.
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PMID:The nitric oxide hypothesis of brain aging. 931 47

In order to assess the relative cytokine contribution to endotoxin stimulation of pituitary-adrenocortical hormone secretion, we measured plasma levels of interleukin-1beta (IL-1beta), tumor necrosis factor (TNF alpha), adrenocorticotropin (ACTH) and corticosterone following lipopolysaccharide (LPS) challenge in rats. LPS administration induced robust increases in both plasma ACTH and corticosterone levels at 3 h after i.p. injection; while ACTH decreased towards control levels, corticosterone remained at peak concentrations at 6 h after LPS injection. Basal levels of plasma IL-1beta were below the sensitivity of the ELISA and basal levels of plasma TNF alpha were 0.25+/-0.12 pM. Small but highly variable non-significant increases in plasma IL-1beta levels were seen at 3 h and 6 h after injection of LPS. The lack of functional consequences of the small increases in IL-1beta levels was demonstrated by unchanged levels of [125I]IL-1alpha binding in liver at 3 h after LPS injection. In contrast, dramatic increases in plasma TNF alpha concentrations were observed at 3 h and decreased to non-injected control levels at 6 h after LPS injection. There was a significant positive correlation between ACTH and TNF alpha after LPS injection, while no correlation was seen between ACTH and IL-1beta. These data demonstrate differential regulation of IL-1beta and TNF alpha by endotoxin treatment and suggest that TNF alpha may be a more potent mediator of LPS-induced ACTH secretion in rat.
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PMID:Endotoxin induced increases in rat plasma pituitary-adrenocortical hormones are better reflected by alterations in tumor necrosis factor alpha than interleukin-1beta. 936 90

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