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)

Extrapituitary corticotropin-like peptides have been found in central nerves and in gastrointestinal and pancreatic endocrine cells. Previous biological and immunological data strongly indicate that the immunoreactivity present in the central nerves represents corticotropin (A.C.T.H.) or a closely related peptide. In some areas of the brain, the distribution of A.C.T.H. nerves parallels that of nerves containing the endogenous opioid ligand, enkephalin. Since A.C.T.H. fragments bind to the opioid receptor the two neuronal peptides may interact. The antiserum used demonstrates the COOH-terminus of the A.C.T.H. molecule, which is devoid of adrenocortical stimulatory activity. A COOH-terminal A.C.T.H.-peptide, corticotropin-like intermediate peptide (C.L.I.P.), originally isolated from the pars intermedia, has been shown to stimulate release of pancreatic insulin. The presence of C.L.I.P.-like molecules in gut and pancreatic endocrine cells may indicate that C.L.I.P.'s insulin-releasing activity is physiologically important. Further, the occurrence of A.C.T.H.-related molecules in such cells may account for the ectopic A.C.T.H. syndrome associated with some tumours of gut and pancreas.
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PMID:Corticotropin-like peptides in central nerves and in endocrine cells of gut and pancreas. 7 31

The injection of various doses of morphine, subcutaneously, or of beta-endorphin, intraventricularly, changes the turnover rate of gamma-aminobutyric acid (TRGABA) in the substantia nigra, globus pallidus and nucleus caudatus. The TRGABA decreases in N. caudatus but increases in globus pallidus and substantia nigra. These changes are dose related and can be inhibited by naltrexone. The increased TRGABA in globus pallidus elicited by these opioid receptor agonists may be associated with catalepsy since muscimol, a specific GABA receptor agonist, injected into the globus pallidus causes a dose-related catalepsy. Since this GABA receptor agonist injected into the substantia nigra fails to cause catalepsy, one can exclude that the increase in the TRGABA of substantia nigra elicited by opiate receptor agonists is operative in mediating the catalepsy elicited by opioids.
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PMID:Opiate receptor agonists as modulators of gamma-aminobutyric acid turnover in the nucleus caudatus, globus pallidus and substantia nigra of the rat. 21 44

Human placental villus tissue contains opioid receptors and peptides. Kappa opioid receptors (the only type present in this tissue) were purified with retention of their binding properties. The purified kappa receptor is a glycoprotein with an apparent molecular weight of 63,000. Two opioid receptor mediated functions were identified in trophoblast tissue, namely regulation of acetylcholine and hormonal (human chorionic gonadotrophin and human placental lactogen) release. Placental content of kappa receptors increases with gestational age. Term placental content of kappa receptors correlates with route of delivery (higher in those abdominally obtained). Opioid use and/or abuse during pregnancy affects placental receptor content at delivery, as well as its mediated functions. Opioid peptides identified in placental extracts were beta-endorphin, methionine enkephalin, leucine enkephalin and dynorphins 1-8 and 1-13. Dynorphin 1-8 seem to be the predominant opioid peptide present in placental villus tissue.
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PMID:Properties and functions of human placental opioid system. 130 34

Endogenous opioid peptides have a role in the regulation of the hypothalamic-pituitary-adrenal axis. Recently, beta-endorphin (EP) has been thought to inhibit CRF release in vivo and in vitro. In the present study we examined the effects of central administration of EP on ACTH secretion and gene expression of both CRF in the hypothalamus and POMC in the anterior pituitary gland (AP) during basal and insulin-induced hypoglycemia in pentobarbital-anesthetized rats. Administration of EP in the lateral ventricle decreased basal CRF levels in the median eminence and inhibited basal and hypoglycemia-induced ACTH secretion in a dose-dependent manner. Hypoglycemia-induced POMC mRNA levels in the AP and CRF mRNA levels in the hypothalamus were also dose-dependently inhibited by the administration of EP. The inhibitory effect of EP was reversed by naloxone. These results suggest that 1) central administration of EP acts through the opioid receptor to inhibit hypoglycemia-induced CRF gene expression in the hypothalamus and CRF release, which results in a decrease in ACTH secretion and POMC mRNA levels in the AP; and 2) the active site of EP is the CRF neuron in the paraventricular nucleus.
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PMID:Beta-endorphin inhibits hypoglycemia-induced gene expression of corticotropin-releasing factor in the rat hypothalamus. 131 Dec 37

The objective of this study was to determine if there are age-related alterations in hemodynamic and/or neuroendocrine responses to the mu-opioid receptor agonist, [D-Ala2,MePhe4,Gly(ol)5] enkephalin (DAMGO), or corticotropin releasing hormone (CRH) administered centrally. To this end, DAMGO (1-3 nmoles) or CRH (1 nmole) was injected intracerebroventricularly (icv) to freely moving young (6-8 month) and aged (24-26 month) Fischer 344 male rats. Blood pressure, heart rate (HR), and plasma concentrations of norepinephrine (NE), epinephrine (EPI), adrenocorticotropin (ACTH), and prolactin (PRL) were measured over time. Under basal conditions, NE levels were higher and blood pressures were lower in aged rats, whereas there were no significant differences in EPI, ACTH, or PRL levels. The stimulatory effect of DAMGO on blood pressure, HR, and plasma EPI and ACTH was attenuated, but the PRL response was enhanced in aged cohorts. In contrast, there were no age-related differences in the NE responses to DAMGO or CRH nor in CRH-induced increases in EPI or ACTH. The sympathoadrenal and hemodynamic effects of DAMGO were blocked by naloxone in both age groups. These results indicate that alterations in mu-opioid function with age are specific for the opioid system and do not reflect a generalized decline in central regulation of neuroendocrine and cardiovascular function.
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PMID:Selective impairment of neuroendocrine and hemodynamic responses to a mu-opioid peptide in aged rats. 131 52

The inhibition of the tail-flick response induced by beta-endorphin given i.c.v. has been demonstrated to be mediated by the stimulation of epsilon- but not mu-, delta- or kappa-opioid receptors. beta-Endorphin given i.t. also inhibited the tail-flick response. The present studies were designed to determine what types of opioid receptors in the spinal cord were involved in i.t. beta-endorphin-induced tail-flick inhibition. Blockade of kappa-opioid receptors by coadministration of nor-binaltorphimine or Win 44,441-3 with beta-endorphin given i.t. dose dependently inhibited i.t. beta-endorphin-induced inhibition of the tail-flick response. Blockade of mu-opioid receptors by i.t. coadministration of D-Phe-Cys-Tyr-D-Try-Orn-Thr-Pen-Thr-NH2 with beta-endorphin blocked i.t. beta-endorphin-induced inhibition of the tail-flick response. I.t. injection of delta-opioid receptors antagonists, ICI 174,864 and naltrindole, or epsilon-opioid receptor antagonist, beta-endorphin-(1-27), did not affect inhibition of the tail-flick response induced by beta-endorphin given i.t. Blockade of alpha 2-adrenoceptors and 5-HT receptors by i.t. injection of yohimbine and methysergide, respectively, also did not affect inhibition of the tail-flick response induced by beta-endorphin given i.t. The results indicate that the inhibition of the tail-flick response induced by beta-endorphin given i.t. is mediated by the stimulation of kappa- and mu-opioid receptors but not delta- and epsilon-opioid receptors, alpha 2-adrenoceptors or 5-HT receptors.
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PMID:The tail-flick inhibition induced by beta-endorphin administered intrathecally is mediated by activation of kappa- and mu-opioid receptors in the mouse. 131 80

Mouse brains of various ages from embryonal day 14 (E14) to adult were analyzed for opioid receptor binding using the enkephalin analog Tyr-D-Ala-Gly-NMe-Phe-Gly-ol (DAMGE) and the opiate alkaloid dihydromorphine (DHM) as mu-selective radioligands. Binding parameters were estimated from homologous and heterologous competition binding curves. During the postnatal period, Kd values for [3H]DAMGE did not change but Bmax values (fmol/mg protein) increased 2.7 fold from postnatal day 3 (P3) to P7. Minor receptor density fluctuations were evident from P7 to adult. Similar results were obtained with [3H]DHM. In contrast, estimation of total mu binding sites (fmol/brain) revealed a continuous rise from P3 to the adult. The postnatal developmental profile of total mu binding sites was comparable to the weight gain of mouse brain and the increase in protein content. In contrast, during the same period beta-endorphin immunoreactivity (IR) levels undergo an increase that is inversely proportional to mu opioid receptor Bmax values. [3H]DAMGE binding to E14 membrane preparations was inhibited to a greater extent by Gpp(NH)p than that to P1 or adult. Additional characterization of mu receptors was accomplished by heterologous competition binding assays. IC50 values for beta-endorphin in competition with [3H]DHM and [3H]DAMGE were age dependent and differed for the two radioligands. These results suggest that mu receptor selectivity for mu-specific peptide and alkaloid ligands changes as a function of age.
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PMID:Differential development of beta-endorphin and mu opioid binding sites in mouse brain. 131 73

The mapping of the forebrain regions sensitive to beta-endorphin and morphine for antinociception was performed in pentobarbital-anesthetized rats. The antinociception was assessed by the tail-flick test. The sites most sensitive to beta-endorphin (2 micrograms) for inhibition of the tail-flick response were located in the ventromedial regions of the forebrain such as medial posterior nucleus accumbens, medial preoptic area and arcuate hypothalamic nucleus. Other areas such as anterior nucleus accumbens, dorsomedial hypothalamic nucleus, posterior hypothalamus, lateral hypothalamus, caudate nuclei, thalami and cerebral cortex were not sensitive to beta-endorphin for the tail-flick inhibition. The sites sensitive to morphine sulfate (4 micrograms) for inhibition of the tail-flick response were located in regions of medial preoptic nucleus and arcuate hypothalamic nucleus. Posterior nucleus accumbens, which is sensitive to beta-endorphin, was not sensitive to morphine for antinociception. Morphine injected into this site did not produce tail-flick inhibition in both conscious and pentobarbital-anesthetized rats. The inhibition of the tail-flick response induced by beta-endorphin (2 micrograms) from posterior nucleus accumbens, medial preoptic area and arcuate hypothalamic nucleus was blocked by the administration of beta-endorphin-(1-27), an epsilon opioid receptor blocker, but not by D-Phe-Cys-Tyr-D-Try-Orn-Thr-Pen-Thr-NH2, a mu opioid receptor blocker. On the other hand, the inhibition induced by morphine (4 micrograms) from medial preoptic area and arcuate hypothalamic nucleus was blocked by D-Phe-Cys-Tyr-D-Try-Orn-Thr-Pen-Thr-NH2, but not by beta-endorphin-(1-27).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Forebrain sites differentially sensitive to beta-endorphin and morphine for analgesia and release of Met-enkephalin in the pentobarbital-anesthesized rat. 131 68

We have investigated the pharmacological profile of the opioid stimulation of adenylate cyclase activity in rat olfactory bulb, in order to identify the opioid receptor subtype(s) involved in this response. The synthetic delta-selective agonists (D-Ala2)deltorphin I, (2-D-penicillamine,5-D-penicillamine)-enkephalin, and (D-Ser-Leu5-enkephalyl)-threonine were effective stimulators of the enzyme activity, with EC50 values of 6.7, 420, and 63 nM, respectively. A significant increase was also observed with the mu-selective agonists (N-methyl-Phe3,D-Pro4)-morphiceptin, dermorphin, and (D-Ala2-N-methyl-Phe4-Gly-ol5)-enkephalin (DAGO). The latter two agonists displayed biphasic concentration-response curves, with high affinity components accounting for 75-80% of the maximal responses. The kappa-selective agonists U-50,488 and U-69,593 were ineffective, whereas (D-Ala2)dynorphin A-1-11, dynorphin A, dynorphin A-1-13, and dynorphin A-1-6 acted with a rank order of potency consistent with their affinity for delta receptors. The stimulatory responses of Leu-enkephalin, beta-endorphin, dynorphin A, and delta-selective agonists were counteracted by naltrindole with pA2 values of 9.39-8.93, whereas naloxone was less potent (pA2 = 8.17-7.59). The kappa-selective antagonist norbinaltorphimine was the least potent. The inhibition by naltrindole and naloxone of DAGO stimulation showed biphasic curves, with 90% of the response being antagonized more potently by naloxone than by naltrindole. These results demonstrate that delta- and mu- but not kappa-opioid receptor subtypes stimulate basal adenylate cyclase activity in rat olfactory bulb.
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PMID:Characterization of opioid receptors mediating stimulation of adenylate cyclase activity in rat olfactory bulb. 132 51

The effects of pentobarbital anesthesia (45 mg/kg i.p.) on the inhibition of the tail-flick response induced by beta-endorphin and morphine injected intracerebroventricularly (i.c.v.) and intrathecally (i.t.) were studied in male ICR mice. Pentobarbital anesthesia attenuated the inhibition of the tail-flick response induced by morphine but not beta-endorphin given i.c.v. However, the tail-flick inhibition induced by morphine given i.t. was not attenuated by pentobarbital. beta-Endorphin-(1-27) (3 micrograms) given i.c.v. or naloxone (2 micrograms) given i.t. blocked inhibition of the tail-flick response induced by morphine given i.c.v. only in pentobarbital-anesthetized mice but not in conscious mice. beta-Funaltrexamine (beta-FNA, 2.5 micrograms) given i.c.v. or yohimbine (2 micrograms) and methysergide (2 micrograms) injected i.t. blocked the morphine (i.c.v.)-induced inhibition of the tail-flick response in conscious mice but not in pentobarbital-anesthetized mice. The results indicate that pentobarbital attenuates the morphine-induced inhibition of the tail-flick response by inhibiting descending noradrenergic and serotonergic pathways and uncovers a descending opioid system. The tail-flick inhibition induced by supraspinal morphine is mediated by stimulation of mu-opioid receptors in conscious mice and epsilon-opioid receptors in pentobarbital-anesthetized mice. The epsilon-opioid receptor-mediated descending system activated by supraspinally injected beta-endorphin is not attenuated by pentobarbital anesthesia.
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PMID:Pentobarbital attenuates antinociception induced by i.c.v. morphine but not beta-endorphin in the mouse. 132 55


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