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)

The pattern of expression of at least four neuropeptides contained in adrenomedullary chromaffin cells is altered by exposure to the cytokines interleukin-1 alpha (IL-1 alpha) and tumor necrosis factor-alpha (TNF alpha), alone or in combination with stimulation of other second messenger pathways. Vasoactive intestinal polypeptide (VIP) was elevated 2- to 3-fold by 1 nM IL-1 alpha within 48 h of exposure, while neurotensin and substance P synthesis were unaffected, and met-enkephalin levels were decreased 25-35%. Stimulation of VIP and substance P biosynthesis by forskolin was markedly enhanced by IL-1 alpha, while forskolin stimulation of enkephalin and neurotensin biosynthesis was unaffected. IL-1 alpha amplified the effect of phorbol myristate acetate to increase the VIP content of chromaffin cells, but antagonized phorbol ester-induced elevation of neurotensin levels. TNF alpha also demonstrated a neuropeptide-specific pattern of modulation of second-messenger effects on chromaffin cell neuropeptide levels similar to those seen with IL-1 alpha. The neuroendocrine actions of IL-1 alpha described above, unlike IL-1 action in the immune system, do not appear to be mediated through IL-2 as this cytokine did not affect VIP or enkephalin expression in the presence or absence of protein kinase stimulation. Neither IL-1 alpha nor TNF alpha affected the calcium-coupled stimulation of neuropeptide secretion and biosynthesis that occurs in response to cell depolarization in these and other neuroendocrine cells in vitro and in vivo. These data provide a functional demonstration of IL-1 and TNF receptors in chromaffin cell cultures and suggest a physiological role for cytokine production in the adrenal medulla. Since both the magnitude and direction of neuropeptide synthesis modulation by IL-1 alpha and TNF alpha are highly peptide-specific, it appears that these cytokines do not merely augment second messenger pathways that affect neuropeptide synthesis, but potentially regulate the activity of factors controlling the pattern of neuropeptide gene expression in chromaffin cells.
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PMID:Interleukin-1 alpha and tumor necrosis factor-alpha differentially regulate enkephalin, vasoactive intestinal polypeptide, neurotensin, and substance P biosynthesis in chromaffin cells. 137 39

A lipopolysaccharide from Pantoea agglomerans (LPSp) was purified and examined for relief of morphine dependence by observing its inhibition of the jumping of mice on naloxone-precipitate withdrawal. Administration of LPSp either intravenously or intradermally showed marked inhibition of the jumping. Beta-endorphin in mouse serum and brain tissue were recognized to be in synchrony with the time course of the relief. Administration of TNF-alpha gave similar effect, suggesting that LPSp induces a cytokine cascade to produce endogenous TNF followed by ACTH/beta-LPH gene products and beta-endorphin. The effect of LPSp was better than that of LPS from E. coli or Bordetella pertussis, and thus is considered to be applicable for clinical use.
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PMID:Inhibition of morphine dependence by a lipopolysaccharide from Pantoea agglomerans. 142 Oct 14

The pro-opiomelanocortin-derived peptide melanocyte stimulating hormone (alpha-MSH) antagonizes the fever induced by several stimuli including endotoxin, endogenous pyrogen, and certain cytokines. To determine if alpha-MSH can antagonize the pyrogenic action of recombinant IL-6 and TNF directly within the central nervous system, the cytokines were injected with and without alpha-MSH (200 ng) into a lateral cerebral ventricle of rabbits and rectal temperature was monitored continuously. Central administration of both cytokines caused fever. However, when alpha-MSH was injected after cytokine administration, the fevers were markedly reduced. The results are consistent with previous observations on the antipyretic effect of alpha-MSH and they show that the peptide can act within the brain to antagonize pyrogenic actions of specific cytokines believed to be important in CNS mediation of fever.
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PMID:Neuropeptide alpha-MSH antagonizes IL-6- and TNF-induced fever. 164 13

Sepsis and its sequelae (sepsis syndrome and septic shock) are increasingly common and are still potentially lethal diagnoses. Many mediators of the pathogenesis of sepsis have recently been described. These include tumor necrosis factor alpha (TNF alpha), interleukins, platelet activating factor, leukotrienes, thromboxane A2, and activators of the complement cascade. Neutrophil and platelet activation may also play a role. Other agents that may participate in the sepsis cascade include adhesion molecules, kinins, thrombin, myocardial depressant substance, beta-endorphin, and heat shock proteins. Endothelium-derived relaxing factor and endothelin-1 are released from the endothelium and seem to exert a regulatory effect, counterbalancing each other. A central mediator of sepsis does not seem to exist, although TNF alpha has been commonly proposed for this role. Animal studies are difficult to extrapolate to the clinical setting because of cross-species differences and variations in experimental design. Rather than being caused by any single pathogenic mechanism, it is more likely that sepsis is related to the state of activation of the target cell, the nearby presence of other mediators, and the ability of the target cell to release other mediators. Also important is the downregulation or negative feedback of these mediators or the generation of natural inflammation inhibitors, such as interleukin-4 and interleukin-8. Endothelial damage in sepsis probably results from persistent and repetitive inflammatory insults. Eventually, these insults produce sufficient damage that downregulation can no longer occur; this leads to a state of metabolic anarchy in which the body can no longer control its own inflammatory response.
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PMID:The pathogenesis of sepsis. 187 94

It is likely that a complex bidirectional interaction occurs between mesangial cells and the immune cells which infiltrate the mesangium during nephritis. Macrophages and other immune cells liberate a series of mediators, including substances such as IL-1, beta-endorphin, TNF, and PDGF--all of which promote the growth of mesangial cells. The end result is mesangial cell proliferation and increased matrix production, both of which are seen in nephritis. The proliferating mesangial cells liberate autocoids such as IL-1 and PDGF, thereby setting up an amplifying loop. Simultaneously, suppressive factors such as TGF-beta are released which antagonize the actions of these growth-promoting substances. The proliferating mesangial cells also produce immunomodulatory peptides, which will in turn act on the infiltrating macrophages to stimulate their replication and activation. Such activated macrophages continue to amplify the inflammatory lesion and also promote the phagocytosis of localized antigen-antibody complexes. The net effect of all of these interactions will depend on the dominance of substances which persist and override the roles of other molecules. Studies of the controls which regulate the production of these growth factors/immune modulators will yield insights into the fundamental mechanisms which determine the outcome in glomerulonephritis.
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PMID:The biology of mesangial cells in glomerulonephritis. 223 99

Cytokine-mediated communication between the immune system and the nervous system has been shown in the past few years. The precise cellular sources of these molecules in the brain is still a controversial issue. We have thus immortalized primary cell cultures from mouse embryonic brains to analyze cloned cells involved in cytokine production. The cell clones obtained were identified as microglial cells and shown to produce several monokines. Among these, TNF alpha was detected by molecular analysis and cytotoxicity assays and shown to be expressed by microglial cells, after activation with LPS. Surprisingly, the TNF alpha-mediated cytotoxic activity, which was neutralized by specific antisera, was not detected in the cell supernatants but was mediated through cell-to-cell contact. Using antibodies to TNF alpha in FACS analysis, specific cell membrane staining on live microglial cells was shown. The results suggest that in the brain the form of TNF alpha detectable by standard procedures is the cell bound form and not the most common form, secreted TNF alpha. In addition, the effects of recombinant TNF alpha in vitro and in vivo were evaluated. In vitro, rTNF alpha stimulated beta-endorphin, GH, and PRL release from cultured cells prepared from rat anterior pituitary glands. In vivo, the administration of rTNF alpha to rats was able to modify analgesic responses. The concomitant administration of naloxone, an opiate receptor antagonist, or monoclonal anti-IL-1 antibody decreased the analgesic effects induced by rTNF alpha. This indicates that the analgesic effect might not be mediated directly by rTNF alpha but by other mediators, whose action is under the control of TNF alpha.
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PMID:Cellular sources and effects of tumor necrosis factor-alpha on pituitary cells and in the central nervous system. 237 85

This study was designed to examine the effects of i.p.-injected alpha-melanocyte stimulating hormone (MSH) on murine neutrophil migration into subcutaneously implanted sponges in response to IL-1-alpha, TNF-alpha, and C5a. The results show that as little as 0.1 ml of 5 x 10(-7) M MSH injected i.p. significantly blocked the accumulation of neutrophils in sponges in response to IL-1. This action of MSH was dose dependent, reversible, and was maximally effective if MSH was given at the same time as the injection of IL-1. This effect of MSH was not restricted to IL-1-induced neutrophil emigration, because MSH also antagonized the accumulation of neutrophils in response to both TNF and C5a. The proopiomelanocortin-derived peptide ACTH which contains the MSH sequence also significantly reduced neutrophil accumulation in response to IL-1, although less effectively than MSH. Similar studies with beta-endorphin showed that it had no effect on neutrophil accumulation in this system. The direct injection of MSH, beta-endorphin and ACTH into sponges or i.p. did not stimulate a neutrophil emigration and eliminated the possibility that MSH or ACTH suppressed the neutrophil influx in response to IL-1, TNF, or C5a by competing for circulating neutrophils. The action of MSH on IL-1, TNF, and C5a-induced neutrophil emigration suggests that this peptide may be an important regulator of the inflammatory response.
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PMID:Modulation of IL-1, tumor necrosis factor, and C5a-mediated murine neutrophil migration by alpha-melanocyte-stimulating hormone. 253 58

Cachectin (tumor necrosis factor, TNF) is a macrophage hormone which is released during infection and after injection of bacterial lipopolysaccharides. We have already demonstrated that the peptide has direct action on the pituitary to alter pituitary hormone release in vitro. To evaluate its action in vivo, we injected it into the third ventricle (3V) of conscious, male rats and measured its effect on various anterior pituitary hormones. The peptide produced an elevation in rectal temperature measurable on first measurement at 1 hour postinjection which was maintained for 3 hours. The maximal increase in body temperature was 1-1.5 degrees C and maximal effect was obtained by a dose as low as 1 ng (0.3 pmol) of the peptide. Preinjection of indomethacin into the 3V 1 hour prior to injection of TNF completely blocked the effect on body temperature without producing an alteration in rectal temperature itself which suggests that the elevation in body temperature may be mediated by prostaglandins. Following the intraventricular injection of various doses of TNF, there was no significant effect on plasma adrenocorticotropin (ACTH) except with the highest, 100 ng dose tested, which evoked a small but significant increase in plasma ACTH with a delay of 1 to 2 hours. Thus, the dose necessary to release ACTH was much higher than that required to elevate body temperature. The effect was no longer significant in indomethacin-pretreated animals suggesting a role for prostaglandins in the effect. This highest dose of intraventricularly administered TNF also produced a relatively modest, but significant, delayed increase in plasma GH.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hypothalamic action of cachectin to alter pituitary hormone release. 261 89

Administration of the pituitary hormone alpha-melanocyte-stimulating hormone (alpha-MSH) to mice was found to inhibit a number of IL-1 and TNF-inducible biologic responses in situ. The ability of either IL-1 or TNF to cause fever, enhance plasma levels of acute phase proteins, and increase the numbers of peripheral blood neutrophils was inhibited by the simultaneous peripheral administration of this neuropeptide. In addition, alpha-MSH reversed the depressive influences of IL-1 or TNF on the effector phase of contact hypersensitivity (CH) responses in animals given an adoptive transfer of primed lymphocytes from hapten-sensitized donors. Intracerebral injection of nanogram quantities of alpha-MSH inhibited the ability of peripherally administered IL-1 or TNF to induce both fever and neutrophilia without affecting the increase in plasma levels of serum amyloid P and fibrinogen. Also, nanogram quantities of alpha-MSH given intracerebrally to normal mice did not reverse the depressed CH responses observed after peripheral IL-1 or TNF administration. These findings suggest that both fever and neutrophilia are linked to the direct action of IL-1 or TNF on the brain. This was supported by the observation that an intracerebral injection of IL-1 or TNF in low doses increased core body temperature and circulating neutrophil numbers without affecting plasma levels of acute phase proteins or CH responsiveness. Our results provide additional support for the hypothesis that bidirectional control exists between elements of the neuroendocrine and immune systems.
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PMID:Neuropeptide regulation of inflammatory and immunologic responses. The capacity of alpha-melanocyte-stimulating hormone to inhibit tumor necrosis factor and IL-1-inducible biologic responses. 283 10

Glucocorticoids are potent antiinflammatory agents. They inhibit leukocyte chemotaxis and vascular permeability and generally suppress the expression of many inflammatory mediators. Recent reports suggested that somatostatin (Sms) had significant immunomodulatory properties in vitro and in vivo. In this study we examined the effects of glucocorticoids on immunoreactive somatostatin expression in aseptic inflammatory sites of Sprague-Dawley rats given carrageenin sc. The progress of the inflammatory reaction was studied over a 7-h period with respect to the volume and cellularity of the exudate and the levels of the inflammatory mediators expressed in the inflammatory site, including immunoreactive substance P (sP), corticotropin-releasing hormone (CRH), and tumor necrosis factor-alpha (TNF alpha). Dexamethasone significantly reduced the volume and cellularity of the inflammatory exudates; in parallel, the levels of immunoreactive sP, CRH, and TNF alpha were significantly suppressed by this glucocorticoid. In contrast, immunoreactive Sms was stimulated by dexamethasone in a time-dependent fashion. These findings suggest another mechanism for suppression of the inflammatory reaction by glucocorticoids via stimulation of local Sms expression, which occurs in parallel to the inhibition of the local inflammatory mediators sP, CRH, and TNF alpha.
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PMID:Somatostatin may participate in the antiinflammatory actions of glucocorticoids. 754 77

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