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)

Corticotropin-releasing factor (CRF) was originally identified as a hypothalamic peptide which stimulates secretion of the hypophyseal adrenocorticotropin hormone. CRF exhibits its actions through G protein-dependent seven membrane domain receptors. Two subtypes of CRF receptors (CRF-R1 and CRF-R2) have been characterized thus far. CRF and its receptors were found in a number of brain regions, where they function by neuromodulation and also in several peripheral organs. Besides CRF, another naturally occurring CRF-like peptide, urocortin, has been characterized. In the immune system, CRF and CRF-R1 were so far detected at both mRNA and protein levels in several lymphoid organs and at sites of inflammation. Locally injected CRF was shown to modulate the severity of inflammation. This effect was not only a result of hemodynamic changes known to be induced by CRF or by activation of the hypothalamo-pituitary-adrenal axis, as CRF-binding sites were also found on immune cells. CRF was shown to directly modulate secretion of cytokines and neuropeptides, proliferation, chemotaxis and degranulation of purified macrophage and lymphocyte populations in vitro. Functional CRF-R was more recently demonstrated also on polymorphonuclear cells and significant amounts of CRF were shown to be produced in lymphoid organs, or delivered to lymphoid organs by peripheral nerves. Taken together, the experimental results obtained so far strongly point to the importance of CRF as a signaling molecule in lymphoid tissues and at the sites of inflammation.
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PMID:Immunomodulatory role of the corticotropin-releasing factor. 1126 88

Stress pathways affect immune function, the most notable of these pathways being activation of the hypothalamic-pituitary-adrenal (HPA) axis. Although HPA activation has generally been relegated to an immunosuppressive role, recent evidence suggests that stress and HPA activation can be immunoenhancing in certain situations. To investigate specific effects of stress on immune function, we used a genetic model of chronic stress wherein transgenic mice overexpress corticotropin-releasing hormone (CRH), a primary mediator of the stress response. In these mice, CRH is overproduced in the brain, leading to chronic activation of the HPA axis. We found that CRH-transgenic mice have decreased leukocyte numbers in lymphoid compartments, with preferential loss of B lymphocytes. They also exhibit decreased Ab production and impaired isotype switching in response to immunization with a thymus-dependent Ag, phosphocholine-keyhole limpet hemocyanin. Despite these deficits, immunization protected CRH-transgenic and wild-type mice equally well against lethal challenge with Streptococcus pneumoniae, an encapsulated Gram-positive bacterium known to require Ab-mediated opsonization for clearance. While IgG responses are severely depressed in these mice, IgM titers are only modestly decreased. This fairly robust IgM response may be sufficient to protect against S. pneumoniae. Additionally, while total leukocyte numbers are decreased in these mice, neutrophil numbers are increased. This increase in number of neutrophils may compensate for the depressed IgG response, allowing adequate host defense during chronic stress.
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PMID:A genetic model of stress displays decreased lymphocytes and impaired antibody responses without altered susceptibility to Streptococcus pneumoniae. 1144 Oct 72

The existence of nerve fibers containing corticotropin-releasing hormone (CRH) immunoreactivity in primary and secondary lymphoid organs from three strains of young adult male rats was examined. Spleens and thymuses from Fischer 344 (F344), Sprague-Dawley (SD) and Lewis (LEW) rats were prepared for immunocytochemistry using antisera directed against CRH. In F344 and SD rats, we were unable to demonstrate CRH-immunoreactive nerves in either the thymus or the spleen. Despite the lack of CRH-containing nerves, CRH immunoreactivity was present in pleotropic cells in the septum, cortex and medulla of the thymus, and in the red and white pulp of spleens from F344 and SD rats. In contrast, CRH+ nerves were found in thymuses and spleens from LEW rats. CRH+ nerves coursed in the interlobular septa, capsule, cortex and medulla of the LEW rat thymus. Large CRH-immunoreactive nerve bundles were present in the hilar region of the LEW rat spleen, and individual CRH+ fibers coursed in the capsule, trabeculae, red pulp, venous sinuses and marginal zone of the white pulp of the spleen. These findings indicate strain differences in neurotransmitter-specific nerves that innervate the rat spleen and thymus under basal conditions.
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PMID:Strain differences in the expression of corticotropin-releasing hormone immunoreactivity in nerves that supply the spleen and thymus. 1154 89

The investigational subject of immunophysiology (neuroimmunomodulation, psychoneurophysiology) is known to be the studies of interactions between nervous and immune systems in normal and pathological conditions on different structural levels of interactions between these systems. It has been shown that expression of genes of immediate (c-fos) and rapid (IL-2) reactions in response to stimuli of non-immune nature occurs not only in lymphoid cells, but also in certain structures of central nervous system. In addition, there are many facts, demonstrating the elevation of IL-1 production by cells of monocyte-macrophage system and the expression of IL-1 genes in brain after action of irritants of different origin. The IL-1 level is revealed to be increased after action of different stress factors that can be predictable. The studies are started having concern with rather new and extremely important aspect of immunophysiology, that is the studies of cytokine expression in brain and its role in brain function. Now it is already clear that practically all the spectrum of cytokines is present in brain and many of them, including IL-1 and IL-2, are expressed not only on glial cells, but on neurons. Partly cytokine involvement is shown during the development of regulatory processes. For example, IL-1 and IL-2 stimulate production of corticotropin releasing and lutein stimulating factors. It is possible to suggest that this line of studies would be highly perspective either for immunology, or for physiology of XXI century.
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PMID:Contemporary Topics in Neuroimmunomodulation. 1268 52

The cerebellum, probably owing to its traditional concept limited to motor control, is less well studied in immunoregulation. To obtain more comprehension and knowledge on cerebellar functions, we investigated effect of cerebellar fastigial nucleus (FN), an output nucleus of the spinocerebellum, on lymphocyte functions, and explored central and peripheral pathways involved in the effect. Kainic acid (KA) was microinjected into bilateral FN of rats (0.4 microg KA in 0.4 microl saline for each side) to destroy neurons of the nuclei. On days 8, 16 and 32 following the FN lesions, methyl-thiazole-tetrazolium (MTT) assay and flow cytometry were used to measure proliferation of concanavalin A (Con A)-induced lymphocytes and cytotoxicity of natural killer (NK) cells against YAC-1 cells, respectively. Meanwhile, glutamate and monoamine neurotransmitters, including norepinephrine (NE), dopamine (DA) and 5-hydroxytryptamine (5-HT), in the hypothalamus and the spleen were determined by means of high-performance liquid chromatography (HPLC) assay. Adrenocorticotropic hormone (ACTH) and cortisol in the plasma were also detected respectively by radioimmunoassay and chemiluminescent immunoassay after the FN lesions. We found that the Con A-induced lymphocyte proliferation and the NK cell cytotoxicity were both significantly enhanced on days 8, 16 and 32 following the effective lesions of the bilateral FN in comparison with those of matching control rats microinjected with saline in their FN. Contents of glutamate and NE, not DA and 5-HT, in the hypothalamus, and concentration of NE, not DA, in the spleen were all remarkably reduced on the 16th day following the FN lesions, when both the T lymphocyte proliferation and the NK cell cytotoxicity were dramatically increased. However, levels of ACTH and cortisol in the plasma had no notable differences between FN lesion rats and FN saline ones when the enhanced T and NK cell functions occurred. These findings reveal that the cerebellar FN participates in the modulation of lymphocyte functions and that the hypothalamus and sympathetic nerves innervating lymphoid organs are involved in this neuroimmunomodulation. Thus, a possible central and peripheral pathway for the spinocerebellum to regulate lymphocyte functions is suggested, i.e. cerebellum-hypothalamus-sympathetic nerves-lymphocytes, while the functional axis of hypothalamus-pituitary-adrenal gland may not contribute to mediation of the spinocerebellar immunomodulation.
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PMID:Effect of lesions of cerebellar fastigial nuclei on lymphocyte functions of rats. 1571 Apr 91

Acute and chronic alcohol abuse impairs various functions of the immune system and thus, has been implicated as a cofactor in the immunopathogenesis of human immunodeficiency virus (HIV) disease progression. We determined whether naltrexone, an opioid receptor antagonist widely used in the treatment of alcoholism, inhibits alcohol-mediated enhancement of HIV infection of T cells. Alcohol enhanced HIV infection of peripheral blood lymphocytes (PBL) and a human lymphoid cell line (CEMX174). Alcohol increased HIV X4 envelope (Env), not murine leukemia virus Env-pseudotyped infection of CEMX174 cells. Naltrexone antagonized the enhancing effect of alcohol on HIV infection of PBL and CEMX174 cells. The specific mu-opioid receptor antagonist, Cys2, Tyr3, Arg5, Pen7 (CTAP) amide, also blocked the enhancing effect of alcohol on HIV infection. Investigation of the underlying mechanism for the alcohol action showed that alcohol significantly increased endogenous beta-endorphin production and induced mu-opioid receptor mRNA expression in PBL and CEMX174 cells. The role of beta-endorphin in alcohol-mediated enhancement of HIV infection was indicated by the observations that naltrexone and CTAP antagonized ether alcohol- or exogenous beta-endorphin-mediated enhancement of HIV infection. These findings suggest a biological mechanism for the potential therapeutic benefit of naltrexone in treating HIV-infected alcoholics.
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PMID:Naltrexone inhibits alcohol-mediated enhancement of HIV infection of T lymphocytes. 1657 67

Pneumonia constitutes a serious medical complication and major cause of death in patients after cerebral stroke. In a mouse model of cerebral ischemia (MCAO), we have recently demonstrated that stroke animals spontaneously develop severe bacterial pneumonia which is preceded by a stress-mediated suppression of cellular immune responses in primary and secondary lymphoid organs. However, little is known about the mechanisms leading to impaired pulmonary antimicrobial immune response after cerebral ischemia. In this study, we demonstrate a rapid up-regulation of the immunomodulatory neuropeptide alpha-melanocyte-stimulating hormone (MSH) in the lung within 24 h after cerebral ischemia. Systemic administration of the naturally occurring alpha-MSH receptor-1 (MC-1R) antagonist agouti immediately after MCAO significantly reduced pulmonary bacterial burden at 72 h. In contrast, administration of recombinant alpha-MSH further increased bacterial load in lungs of MCAO animals. In addition, cerebral ischemia resulted in a strong modulation of local pulmonary immunity with increased production of IL-10 by lung macrophages, reduced pulmonary lymphocyte counts, as well as decreased lymphocytic IFN-gamma but increased IL-4 production. However, alpha-MSH blockade by administration of agouti did not prevent changes in lung immune cell numbers or cytokine production suggesting that suppression of cellular immune responses is not the primary mechanism of alpha-MSH mediated inhibition of pulmonary antibacterial defenses. This study indicates an important role of alpha-MSH for the increased infectious susceptibility after cerebral ischemia and may provide new therapeutic strategies to prevent post-stroke infectious complications.
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PMID:Alpha-MSH promotes spontaneous post-ischemic pneumonia in mice via melanocortin-receptor-1. 1830 33

Non-clinical studies were conducted to evaluate the toxicity of Antalarmin, a corticotropin-releasing hormone type 1 receptor antagonist being developed for therapy of stress-related pathologies. Antalarmin was not genotoxic in bacterial mutagenesis assays, mammalian cell mutagenesis assays, or in vivo DNA damage assays. In a 14-day range-finding study in rats, Antalarmin doses >or=500 mg/kg/day (3,000 mg/m(2)/day) induced mortality. In a 90-day toxicity study in rats, no gross toxicity was seen at doses of 30, 100, or 300 mg/kg/day (180, 600, or 1,800 mg/m(2)/day, respectively). Antalarmin (300 mg/kg/day) induced mild anemia, increases in serum gamma-glutamyl transferase activity, and microscopic hepatic pathology (bile duct hyperplasia and epithelial necrosis, periportal inflammation). Microscopic renal changes (cortical necrosis, inflammation, hypertrophy, nephropathy) were observed in rats at all Antalarmin doses. In a 14-day range-finding study in dogs, Antalarmin doses >or=50mg/kg/day (1,000 mg/m(2)/day) induced repeated emesis and bone marrow suppression. In a 90-day toxicity study in dogs, Antalarmin (4, 8, or 16 mg/kg/day (80, 160, or 320 mg/m(2)/day, respectively)) induced bone marrow and lymphoid depletion, but no gross toxicity. Comparative in vitro studies using rat, dog, and human neutrophil progenitors demonstrated that canine bone marrow cells are highly sensitive to Antalarmin cytotoxicity, while rat and human bone marrow cells are relatively insensitive. As such, the bone marrow toxicity observed in dogs is considered likely to over-predict Antalarmin toxicity in humans. The hepatic and renal toxicities seen in rats exposed to Antalarmin identify those tissues as the most likely targets for Antalarmin toxicity in humans.
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PMID:Integration of in vivo and in vitro approaches to characterize the toxicity of Antalarmin, a corticotropin-releasing hormone receptor antagonist. 1842 34

The relationship of the stress response to the pathogenesis of alopecia areata (AA) was investigated by subjecting normal and skin graft-induced, AA-affected C3H/HeJ mice to light ether anesthesia or restraint stress. Plasma corticosterone (CORT), adrenocorticotropic hormone (ACTH), and estradiol (E2) levels were determined by RIA, whereas gene expression in brains, lymphoid organs, and skin was measured by quantitative RT-PCR for corticotropin-releasing hormone (Crh), arginine vasopressin (Avp), proopiomelanocortin (Pomc), glucocorticoid receptor (Nr3c1), mineralocorticoid receptor (Nr3c2), corticotropin-releasing hormone receptor types 1 and 2 (Crhr1, Crhr2), interleukin-12 (Il12), tumor necrosis factor-alpha (Tnf alpha), and estrogen receptors type-1 (Esr1) and type-2 (Esr2). AA mice had a marked increase in hypothalamic-pituitary-adrenal (HPA) tone and activity centrally, and peripherally in the skin and lymph nodes. There was also altered interaction between the adrenal and gonadal axes compared with that in normal mice. Stress further exacerbated changes in AA mouse HPA activity both centrally and peripherally. AA mice had significantly blunted CORT and ACTH responses to acute ether stress (physiological stressor) and a deficit in habituation to repeated restraint stress (psychological stressor). The positive correlation of HPA hormone levels with skin Th1 cytokines suggests that altered HPA activity may occur as a consequence of the immune response associated with AA.
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PMID:Development of alopecia areata is associated with higher central and peripheral hypothalamic-pituitary-adrenal tone in the skin graft induced C3H/HeJ mouse model. 1943 88

Modern investigations of the mechanisms of both neuroregulation of immunity and neural effects of immune reactions have focused on identification of the mediators, their receptors, and signal transduction pathways in both systems. Less attention has been directed to delineation of the tissue context of neuroregulation of immunity that determines the principal sources of neuromediators, the physiological consequences of integration of neural and immune activities, and possible approaches to pharmacological manipulation. To illustrate these points, we describe here the corticotropin-releasing hormone (CRH) and vasoactive intestinal peptide (VIP) axes. When generated by the hypothalamus in response to inflammation or other stresses, CRH is immunosuppressive through its ability to increase levels of glucocorticoids and catecholamines. In contrast, CRH from peripheral nerves and immune accessory cells is immunostimulatory in tissue immune responses through direct effects on macrophages and lymphocytes. VIP released from several sets of nerves is immunosuppressive as a result of actions on macrophages and T cells in lymphoid organs, whereas VIP from immune cells in local tissue responses to antigen enhances development of some types of memory T cells and effector Th17 cells. Better understanding of how tissue context establishes the nature of neuroregulation of immunity will improve neuropharmacological and other neurotherapeutic approaches to immune diseases.
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PMID:Diverse mechanisms and consequences of immunoadoption of neuromediator systems. 1907 64

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