Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

A study was made of deviations, beyond 1 sigma and 1.5 sigma of a mean value (M) of a donor group, in individual immunological parameters (for instance, the number of CD5+, CD2+, CD4+, CD8+, CD25+ and B-cells; alpha 1-thymosin concentration; and autoantibody titers to antigens of epithelial reticulum cell cytoplasm) in patients suffered acute radiation sickness (ARS) and liquidators of Chernobyl NPP accident. The radiation damage to the immune system was reliably detected in the affected subjects examined: they exhibited a decrease in the alpha 1-thymosin level below M = -1.5 sigma and in absolute B cellularity below M = -1 sigma; and increase in the number of CD25+ cells and in the level of serum autoantibodies to antigens of thymus epithelial reticulum cell cytoplasm. When several parameters selected were examined simultaneously the frequency of recording the deviations in merely one of them markedly increased.
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PMID:[Individual immunological parameters in clean-up team members and patients with sequelae of acute radiation sickness 5 years after the effects of the Chernobyl accident]. 149 42

Immature lymphocytes in the thymus gland are killed by treatment with exogenous glucocorticoids. This steroid-mediated lymphocytolysis is preceded by numerous alterations in lymphocyte metabolism, including a DNA-degrading process in which the genome is cleaved at internucleosomal intervals. To date, this process has only been characterized by treating lymphocytes in vitro with glucocorticoids or by exogenous treatment of whole animals with adrenal steroids. To determine whether thymocyte DNA degradation could be activated by endogenous glucocorticoids, 4-wk-old chicks were treated with porcine adrenocorticotropic hormone (ACTH). This procedure elevated serum corticosterone levels approximately 80-fold within 2 h of hormone treatment. Following ACTH administration, thymocyte DNA was isolated and analyzed by agarose gel electrophoresis. The ACTH activated a DNA-degrading process that generated internucleosomal fragments of DNA identical in size to those observed following exogenous treatment with synthetic or naturally occurring glucocorticoids. Furthermore, this response could be inhibited by the glucocorticoid antagonist RU486 (17 beta-hydroxy-11 beta, 4-dimethylaminophenyl-17 alpha-propynl-estra-4,9,diene-3-one), indicating that adrenal steroids activate this process via the glucocorticoid receptor. These results demonstrate that lymphocyte DNA degradation does not result solely from exogenous glucocorticoid treatment; moreover, endogenous glucocorticoids can mediate this process and may thereby play an important role in thymic gland function.
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PMID:Activation of thymocyte deoxyribonucleic acid degradation by endogenous glucocorticoids. 164 45

Our previous work showed that the pineal neurohormone melatonin induces activated T lymphocytes to release opioid peptides with immunoenhancing and anti-stress properties. Here we present evidence that these peptides crossreact with anti-beta-endorphin and anti-met-enkephalin antisera, and bind specifically to thymic opioid receptors. Furthermore, the same antisera injected in prednisolone treated mice prevented the normal recovery of thymus cellularity and of the capacity to mount a primary antibody response against T-dependent antigens. Surgical pinealectomy, i.e. inhibition of endogenous melatonin and absence of antigen activation negated the effect of such antisera demonstrating the physiological relevance of this melatonin-immuno-opioids network. It is proposed that function of this network may be that of driving a correct immune recovery after the depression caused by the elevated corticosteroids level associated with immune responses and/or stressful situations.
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PMID:Anti-stress role of the melatonin-immuno-opioid network: evidence for a physiological mechanism involving T cell-derived, immunoreactive beta-endorphin and MET-enkephalin binding to thymic opioid receptors. 166 19

The pineal neurohormone melatonin was shown to stimulate the release of opioid peptides from activated CD4+, T lymphocytes. These immuno-derived opioids or "lymphomorphins" crossreact with anti-beta-endorphin and anti-metenkephalin antisera, bind to opioid receptors in the thymus and are the mediators of the immunoenhancing and anti-stress action of endogenous and/or exogenous melatonin. These findings proved the existence of a novel immunoneuroendocrine physiological mechanism which may be related for the long range maintenance of the immune homeostasis in spite of the unavoidable stress and/or infectious events occurring during the span of life in a normal unprotected environment.
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PMID:Immuno-derived opioids as mediators of the immuno-enhancing and anti-stress action of melatonin. 168 47

The outer cortex of the human thymus contains a one- to two-cell-thick layer that is immunoreactive with antisera against beta-endorphin, (Leu)- and (Met)-enkephalin, bombesin, and substance P. The epithelial nature of these immunostained cells is revealed by immunoelectron microscopic studies showing the presence of desmosomal junctions. The presence of peptide-containing cells in the outer cortex, where the most immature and recently immigrated thymocytes are found, emphasizes the role of neuropeptides in regulating the microenvironment for T cell development.
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PMID:Neuropeptide-immunoreactive cells in human thymus. 170 21

1. The effects of 72 h subcutaneous infusion of graded doses of rat CRF and ACTH(1-24) were studied in rats of initial weight 150-170 g. Rat CRF was infused at 30, 100 or 300 ng/h, and ACTH(1-24) at 125, 250 or 500 ng/h. 2. There was a progressive though modest increase in adrenal weight for all CRF doses, and an associated reduction of thymus weight. Circulating ir-ACTH, ir-beta-endorphin and corticosterone levels, and adrenal DNA content, were not increased after 3 days. Adrenal RNA and protein content were increased at the highest CRF dose used. 3. ACTH infusion caused a progressive increase in adrenal weight and thymic involution which was marked at the higher doses; circulating corticosterone levels were not significantly altered by the lowest dose but were significantly raised by the higher doses. As expected, plasma ir-beta-endorphin was suppressed to low levels with all doses. Adrenal DNA did not alter but there were progressive increases in adrenal protein and RNA. 4. There was a marked difference in gain between the two infusion regimens in terms of all parameters measured, suggesting that potent mechanisms exist to temper the pituitary-adrenal response to markedly different levels of peripheral CRF input. The damped effect of CRF infusion compared with that of ACTH may represent desensitization of CRF receptors at the pituitary; alternatively, it may reflect binding and substantial inactivation of CRF in peripheral blood.
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PMID:Effect of 3 day infusion of ACTH or CRF on the pituitary-adrenal axis. 248 98

The effect of chronic administration of morphine and abrupt and naloxone-precipitated withdrawal on the levels of beta-endorphin and methionine-enkephalin in spleen, adrenals and thymus glands of Sprague-Dawley rats was determined. Rats were made tolerant to and dependent on morphine by subcutaneous implantation of 6 morphine pellets (75 mg morphine in each) during a 7-day period. The tolerant-dependent (with pellets intact) and abstinent (pellets removed 18 hours earlier) rats were sacrificed. In another group, rats with pellets intact were injected with naloxone and sacrificed 10 min later (precipitated abstinence). The weights of the tissues under any of the above treatments did not change nor did the levels of methionine-enkephalin and beta-endorphin in adrenals. The level of beta-endorphin was elevated in the spleen and thymus of morphine tolerant-dependent rats, while the levels of methionine-enkephalin in rats undergoing abrupt or naloxone-precipitated abstinence were significantly higher than in their respective placebo controls. The levels of methionine-enkephalin in the thymus gland of rats with placebo and morphine pellets left intact did not differ. It is concluded that in morphine tolerant-dependent rats the levels of beta-endorphin in spleen and thymus are elevated. During abrupt and naloxone-precipitated abstinence, the levels of methionine-enkephalin in the thymus gland are significantly elevated possibly due to an inhibition of their release. Since these opioid peptides have been implicated in immunomodulation, and alterations were seen in organs controlling immune function, the present results may be helpful in explaining altered immune function in morphine dependent and abstinent states.
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PMID:Methionine-enkephalin and beta-endorphin levels in spleen and thymus gland of morphine tolerant-dependent and abstinent rats. 253 11

The behavior of steroidogenesis activator polypeptide (SAP), a recently described modulator of cholesterol side-chain cleavage activity (Pedersen, R. C., and Brownie, A. C. (1987) Science 236, 188-190), was investigated in rat adrenocortical cells using a specific radioimmunoassay. In response to a maximal dose of adrenocorticotropic hormone (ACTH) (1 nM) or of 8-Br-cAMP (1 mM), an increase in intracellular SAP begins rapidly (less than 1 min) and reaches half-maximal and maximal levels (16-fold greater than basal) at 3 and 15 min, respectively. A plateau at this maximal concentration of SAP is then maintained. The levels of intracellular SAP content and of corticosterone output exhibit a similar dose-dependent response to ACTH (EC50 = 25 and 30 pM, respectively). Treatment of ACTH-stimulated cells with cycloheximide reverses the rise in SAP (t1/2 congruent to 5-7 min). In vivo the SAP content of adrenals from quiescent rats is concordant with the circadian rhythm of the pituitary-adrenal axis; at the apex (1800 h), adrenal SAP is 13-fold higher than at the nadir (0800 h), paralleling 2- and 7-fold variations in cholesterol side-chain cleavage activity and serum corticosterone levels, respectively. At both time points, SAP levels rise in response to stress. Of the rat tissues examined, only the major steroid-forming organs (adrenal cortex and gonads) had significant levels of immunoreactive, cAMP-responsive SAP, while cAMP-unresponsive immunoreactivity was also detectable in the thymus, spleen, and brain. Considered together with the biological activity previously demonstrated for SAP in vitro, these data are consistent with its role as a cAMP-dependent, cycloheximide-sensitive modulator of steroid biosynthesis.
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PMID:The kinetics of steroidogenesis activator polypeptide in the rat adrenal cortex. Effects of adrenocorticotropin, cyclic adenosine 3':5'-monophosphate, cycloheximide, and circadian rhythm. 254 56

We have recently demonstrated that the pineal neurohormone melatonin can enhance immune reactivity in normal mice and counteract the effects of acute stress or corticosterone treatment on antibody production, thymus weight and anti-viral resistance. These remarkable immunopharmacologic effects of melatonin were abolished by naltrexone, suggesting an involvement of the endogenous opioid system. Here we compared the immunopharmacologic action of beta-endorphin, dynorphin 1-13, leu-enkephalin and metenkephalin with that of melatonin in restraint-stressed or prednisolone-treated mice and in normal nonstressed animals. We found that beta-endorphin and dynorphin 1-13 can mimic the immunoenhancing and antistress effect of melatonin. However, at variance with the pineal neurohormone, these opioids were effective in umprimed mcie, too. We found also that restraint stress or prednisolone treatment decreases the immunopharmacologic potency of beta-endorphin and augments that of dynorphin 1-13. In fact, at the doses used, beta-endorphin enhanced the antibody response in normal but not in stressed or prednisolone-treated mice, while dynorphin 1-13 was effective only in counteracting the effect of stress or prednisolone treatment. Most interestingly, all these effects proved to be dependent on the time of administration, i.e. showed a circadian rhythm in analogy with the effects of melatonin. Again, naltrexone abolished all the opioid effects, indicating that their action was exerted via opioid receptors. These findings have important scientific and practical implications.
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PMID:Beta-endorphin and dynorphin mimic the circadian immunoenhancing and anti-stress effects of melatonin. 257 Jul 59

There is increasing evidence that the neuroendocrine system is responsive to hormonal signals generated by the immune system. Thus, interleukin-1, hepatocyte stimulating factor and thymosin have been shown to stimulate adrenocorticotropin, beta-endorphin and luteinizing hormone secretion. We report here that homeostatic thymus hormone (HTH), a well-characterized thymic preparation, reduces plasma thyrotropin (TSH) and growth hormone (GH) in young (3 months) Sprague-Dawley male rats, but fails to do so (TSH) or has a significantly weaker effect (GH) in old (26 months) animals. Young and old conscious, free-moving rats carrying an indwelling atrial cannula received the substances to be tested via the cannulas. Plasma samples were taken every 30 min for 5 h and hormones were measured by RIA. In the young rats, HTH (8 mg/kg body wt) induced a marked reduction in plasma TSH which was significantly greater than the normal circadian decline observed in saline-injected young controls. The old rats displayed high basal levels of TSH which showed no circadian rhythmicity and did not respond to HTH. Plasma thyroxine (T4) showed a significant age-related reduction but was not affected by HTH. The above dose of HTH significantly reduced plasma GH in young and old rats, but the effect was greater in the young animals. Mean basal levels of plasma GH were significantly lower in old than in young rats. The present results suggest that HTH, whose production by the thymus is known to be stimulated by TSH and GH, is involved in an inhibitory feedback loop regulating plasma TSH and GH in young rats. Our data also suggest an age-related desensitization of the TSH and GH systems to thymic influence in this species.
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PMID:Differential effect of homeostatic thymus hormone on plasma thyrotropin and growth hormone in young and old rats. 267 34


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