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)

We have investigated the in vitro effects of the neurohormone beta-endorphin (b-end) on natural killer (NK) activity and interferon (IFN) production mediated by large granular lymphocytes (LGL). LGL-enriched fractions from peripheral blood mononuclear cells (PBMC) from normal human volunteers were obtained by fractionation over discontinuous Percoll gradients. LGL were preincubated with or without various concentrations of b-end or the closely related peptides alpha-endorphin (a-end), gamma-endorphin (g-end), or D-ALA2-beta-endorphin (D-ALA2-b-end), a synthetic b-end analogue. NK activity was assayed on 51Cr-labeled K562 target cells. Preincubation of LGL effectors (but not K562 targets) for 2 to 18 hr with concentrations of b-end between 10(-7) M and 10(-10) M produced significant augmentation of NK cytolytic activity (mean percentage increase: 63%). The classic opiate antagonist naloxone blocked the enhancing effect when used at a 100-fold molar excess relative to b-end. Neither a-end nor g-end could augment NK activity, whereas D-ALA2-b-end produced an enhancement comparable with that produced by b-end. In addition, incubation of LGL with b-end in the presence of phytohemagglutinin or poly I:C significantly augmented IFN production. These findings demonstrate that b-end enhances NK activity and IFN production of purified LGL, and suggests that b-end might bind to an opioid receptor on LGL that can be blocked by naloxone. These results lend support to the concepts of regulation of the immune response by neurohormones and the functional relationship between the nervous and immune systems.
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PMID:beta-Endorphin augments the cytolytic activity and interferon production of natural killer cells. 293 81

Viral infection of lymphocytes induces the synthesis of interferon (IFN)-alpha and immunoreactive corticotropin (irACTH). We have previously shown the irACTH to be antigenically, structurally, and functionally related (if not identical) to pituitary ACTH. Virus infected lymphocytes also synthesize in endorphin as measured by immunofluorescence. The endorphin-like activity was found to be associated directly with IFN-alpha as well as other, lower molecular weight peptide(s) having no antiviral activity. Crude IFN-alpha at 1000 U/ml exhibited opiate receptor binding activity by inhibiting 47.2% of 3H dihydromorphine (4 X 10(-9) M) binding to mouse brain tissue. Homogeneous HuIFN-alpha (10(8.3) U/mg) also bound to opiate receptors but required 10 times the antiviral activity than crude IFN-alpha for a 50% inhibition of dihydromorphine binding. When injected intracerebrally both crude and homogeneous IFN-alpha induced transient analgesia in mice that was reversible and preventable by the opiate antagonist naloxone. The low molecular weight (less than 10 Kd) ir endorphins purified from the IFN-alpha had no antiviral activity, but may represent the majority of the opiate receptor binding material in the infected lymphocyte culture fluid. These data seem to indicate that the opiate-like side effects of exogenous IFN administration may be due to the IFN-alpha molecule binding to opiate receptors and also may be due to the associated low molecular weight endorphin-like moieties synthesized by lymphocytes.
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PMID:Opiate receptor mediated effects of IFN-alpha and lymphocyte derived endorphin-like peptides. 300 57

The Saccharomyces cerevisiae secretory process was studied by evaluating secretion efficiency, processing efficiency, and the efficiency of protein folding for hybrid proteins containing the yeast prepro-alpha-factor leader region. Secretion of three proteins, beta-endorphin, calcitonin, and a consensus alpha-interferon (IFN-Con1), were compared in terms of secretion efficiency into the culture medium, beta-Endorphin and calcitonin, both small proteins, were found to be efficiently secreted from logarithmically grown cells. In contrast, the larger IFN-Con1 accumulated in the periplasmic space and cell wall. The glycosylated, unprocessed prepro-alpha-factor/IFN-Con1 fusion protein was also found to be secreted into the culture medium. The presence of (Glu-Ala) dipeptides in the alpha-factor spacer peptide increased the efficiency of cleavage at Lys-Arg in the prepro-alpha-factor/IFN-Con1 protein fusion. Purified secreted IFN-Con1 was structurally characterized to determine the effect of passage through the yeast secretory pathway on the fidelity and efficiency of protein folding. The disulfide structure of the secreted protein was found to be identical with that reported for the native human alpha-interferons.
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PMID:Protein secretion from Saccharomyces cerevisiae directed by the prepro-alpha-factor leader region. 300 32

The production and action of immunoregulatory cytokines, including interleukin-1 (IL-1), are inhibited by glucocorticoid hormones in vivo and in vitro. Conversely, glucocorticoid blood levels were increased by factors released by human leukocytes exposed to Newcastle disease virus preparations. This activity was neutralized by an antibody to IL-1. Therefore the capacity of IL-1 to stimulate the pituitary-adrenal axis was tested. Administration of subpyrogenic doses of homogeneous human monocyte-derived IL-1 or the pI 7 form of human recombinant IL-1 to mice and rats increased blood levels of adrenocorticotropic hormone (ACTH) and glucocorticoids. Another monokine, tumor necrosis factor, and the lymphokines IL-2 and gamma-interferon had no such effects when administered in doses equivalent to or higher than those of IL-1. The stimulatory effect of IL-1 on the pituitary-adrenal axis seemed not to be mediated by the secondary release of products from mature T lymphocytes since IL-1 was endocrinologically active when injected into athymic nude mice. These results strongly support the existence of an immunoregulatory feedback circuit in which IL-1 acts as an afferent and glucocorticoid as an efferent hormonal signal.
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PMID:Immunoregulatory feedback between interleukin-1 and glucocorticoid hormones. 301 62

The immune system and the neuroendocrine system affect each other via molecules and receptors shared by both systems. Neuroendocrine hormones may act either positively or negatively in regulating the activities of a key cell of the immune system, the macrophage. For example, adenocorticotropic hormone (ACTH), somatostatin, and substance P are all capable of increasing the cytotoxicity of macrophages against tumor cells. However, ACTH and somatostatin, but not substance P, can also block the tumoricidal activity of macrophages induced by recombinant gamma interferon (IFN-gamma), a non-neuroendocrine immunomodulating hormone. In contrast, substance P increased tumoricidal activity, both independent of IFN-gamma and in addition to IFN-gamma. Neurotensin, alpha-endorphin, beta-endorphin, met-enkephalin, vasopressin, and substance K did not affect tumoricidal function, either alone or in combination with IFN-gamma. Substance P, but not the other neuropeptides, increased substantially the proportion of macrophages able to secrete superoxide ions, suggesting a possible influence on macrophage capacity to deal with microbial infection. Such positive and negative modulation of macrophage effector functions could contribute to the influence of cognitive stimuli in infection and neoplasia.
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PMID:Neuropeptides modulating macrophage function. 303 73

Fusions between the cloned yeast alpha-factor structural gene and chemically synthesized DNA segments encoding human protein analogs have been constructed. The gene fusions encode hybrid proteins that include the first 89 amino acids of the native alpha-factor precursor fused to either a small (beta-endorphin, 31 amino acids) or large (alpha-interferon, 166 amino acids) foreign protein. Proteolytic cleavage sites involved in alpha-factor maturation from the native precursor immediately precede the foreign peptide in the hybrid protein. The alpha-factor promoter was utilized to express the gene fusions in Saccharomyces cerevisiae and resulted in the efficient secretion of the foreign proteins into the culture medium. The processing of the hybrid proteins has been characterized by amino acid sequence analysis of the secreted proteins. The proteolytic cleavages involved in the maturation of alpha-factor peptides from the native precursor also occur accurately in the hybrid protein. In addition, cleavages occurred on the carboxyl side of two lysines within the beta-endorphin peptide. Internal cleavages in the interferon protein were also detected. However, in this case, the cleavages occurred at a very low frequency such that greater than 95% of the secreted interferon remained intact.
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PMID:Secretion of foreign proteins from Saccharomyces cerevisiae directed by alpha-factor gene fusions. 608 94

Anti-alpha-corticotropin [anti-ACTH alpha (1-13)](also alpha-melanotropin) and anti-gamma-endorphin antisera neutralized human leukocyte interferon activity but not fibroblast interferon activity. Human leukocyte interferon was not neutralized by anti-human lutenizing hormone (lutropin) or follicle-stimulating hormone (follitropin) antisra. Conversely, antisera to human leukocyte interferon neutralized ACTH activity. The neturalization of human leukocyte interferon by anti-human leukocyte interferon serum was partially blocked by ACTH. These studies show strong antigenic relatedness among human leukocyte interferon, ACTH, and endorphins, implying that there are underlying structural similarities. Structural relatedness is shown by pepsin cleavage of ACTH activity from human leukocyte interferon. The implication for the natural functions of human leukocyte interferon are discussed.
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PMID:Human leukocyte interferon: structural and biological relatedness to adrenocorticotropic hormone and endorphins. 616 May 89

Adrenocorticotropic hormone (ACTH) and mouse but not human interferon caused a steroidogenic response and induced antiviral activity in mouse adrenal tumor (Y-1) cells. ACTH and human but not mouse interferon caused induction of melanin synthesis and antiviral activity in human melanoma cells. ACTH did not induce antiviral activity in mouse L or human amnion (WISH) cells. The hormonal activities of interferon were neutralized by specific rabbit anti-interferon sera. Thus, interferon has species-specific hormonal activity and ACTH has cell-specific antiviral activity. These results are discussed in terms of the possible natural functions of interferon polypeptide hormones.
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PMID:Interferon and adrenocorticotropic hormone induction of steroidogenesis, melanogenesis and antiviral activity. 616 39

Human leukocyte interferon (hIFN-alpha) preparations contain immunologically and biologically recognizable endorphin and corticotropin-like (ACTH-like) activities. The ACTH bioactivity was demonstrable only after pepsin or acid treatment. Highly purified hIFN-alpha was composed of two molecular species of interferon (18,500 and 23,000 daltons). Endorphin activity was associated with both of these molecules. Pepsin treatment of the 23,000-dalton but not the 18,500-dalton hIFN-alpha generated ACTH activity. In acid, the 23,000-dalton hIFN-alpha broke down into the 18,500-dalton form and ACTH (4500 daltons). The ACTH derived from hIFN-alpha by pepsin digestion comigrated with a purified ACTH standard in NaDodSO4/polyacrylamide gel electrophoresis. hIFN-alpha-producing lymphocytes showed positive immunofluorescence after staining with highly specific antisera to ACTH alpha-(1-13) and gamma-endorphin. Essentially 100% of the human peripheral lymphocytes were capable of producing both ACTH and gamma-endorphin-related substances, presumably associated with hIFN-alpha. These results strongly suggest a circuit between the immune and neuroendocrine systems which involves neuroendocrine hormone-like substances, some of which are associated with hIFN-alpha
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PMID:Human lymphocyte production of corticotropin and endorphin-like substances: association with leukocyte interferon. 617 75

Infection of hypophysectomized mice with Newcastle disease virus caused a time-dependent increase in corticosterone and interferon production. Prior treatment with dexamethasone completely inhibited the virus-induced elevation in corticosterone concentration, but did not significantly alter the interferon response. Lymphocytes appear to be the most likely source of an adrenocorticotropin-like substance that is responsible for the increased corticosterone, since spleen cells from the virus-infected, but not from control or dexamethasone-treated, hypophysectomized mice showed positive immunofluorescence with antibody to adrenocorticotropin-(1-13 amide). Thus the adrenocorticotropin-like material and interferon appear to be coordinately induced the differentially controlled products of different genes. These findings strongly suggest the existence of a lymphoid-adrenal axis.
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PMID:Virus-induced corticosterone in hypophysectomized mice: a possible lymphoid adrenal axis. 618 48

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