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)

The composition and blood concentration of free aminoacids and other aminocompounds were investigated using automatic aminoacid analysis by a physiological program in 12 patients with diagnosed corticotropin secreting hypophyseal disease (Itsenko-Cushing disease) before and 1-3 years after proton "hypophysectomy". Imbalance of components of the glucose-alanine cycle, expressed in hypoalaninemia and raised concentration of aminoacids with a bifurcated lateral chain, was detected against a background of marked hypercorticotropinemia and hypercorticolism. Single irradiation of the pituitary gland with a proton beam at absorbed doses of 100-120 Gy in the maximum of a deep field resulted in remission and normalization of aminograms of blood plasma (suggesting pathogenicity of proton-beam therapy) for 6-12 mos. The authors discussed probable mechanisms of the interrelationship of protein-amino-acid and carbohydrate metabolic derangements and their correlation with a type of changes in the hormonal balance.
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PMID:[The effect of proton therapy on the protein-amino acid metabolism in Itsenko-Cushing disease]. 165 73

Two peptides, designed to contain structural models of the proposed hydrophilic linker domain (residues 6-12) and amphiphilic alpha-helical domain (residues 13-29) in beta-endorphin, have been tested for their abilities to mimic the opioid receptor selectivity profile of the natural hormone. In competitive binding assays employing guinea-pig brain membranes, both peptides displayed a much higher affinity for mu- and delta-opioid receptors than for kappa opioid receptors. Relative to beta-endorphin, the peptide models were 2-3 times more potent in the mu and kappa receptor binding assays, and about equipotent in the delta receptor binding assay. In guinea-pig ileum assays, one peptide was equipotent to beta-endorphin and the other was twice as potent. Like beta-endorphin, their actions on this tissue were highly sensitive to naloxone antagonism, indicating that they were mediated by mu receptors and not kappa receptors. In view of the design of the two peptide models, and their minimal homology to the natural hormone, these results provide additional evidence in support to our proposal for the functional conformation of beta-endorphin.
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PMID:Opioid receptor selectivity of peptide models of beta-endorphin. 255 33

It is known that the same peptide can be identified in different secretory tissues and in the central nervous system (CNS). We now provide evidence that the same peptides can be found in different organs related to the control of a single function, and speculate on the possibility that this reflects a common neuroendocrine programming. Endogenous opioid peptides (EOP) inhibit the reproductive function acting via the CNS. EOP inhibit gonadotropin secretion in rodents and humans via inhibition of GnRH release and have direct inhibitory actions at the pituitary level via specific binding sites on the gonadotrophs. However, EOP can also be synthesized in the testis and in different compartments of the male genital tract. Several findings indicate that EOP of the reproductive tract have a local, paracrine role. These include: (1) the detection of significant beta-endorphin (beta-EP) production by rat Leydig cells (Lc) in cultures; (2) the hormonal regulation of Lc beta-EP production by positive (gonadotropins) and negative (steroids, glucocorticoids, GnRH) factors; (3) the presence of opioid binding sites (Kd in the nanomolar range) in tubular homogenates and Sertoli cells (Sc) in culture of adult and immature rat testes; (4) the inhibition of basal and FSH-stimulated ABP production by Sc in culture when chronically exposed to beta-EP treatment; (5) the detection of high levels of beta-EP and met-enkephalin in human semen with values 6-12 times higher than in plasma; (6) the evidence for inhibitory functions of seminal opioids on sperm motility, vas deferens muscle contraction and partner immune system. Thus the same peptides, i.e. EOP, may control the reproductive function at multiple sites, operating as a multimessenger system in which the central and peripheral level are unified by the common chemical and inhibitory nature of the message.
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PMID:Neuroendocrine control of male reproductive function. The opioid system as a model of control at multiple sites. 264 37

We have recently shown that in addition to beta-endorphin the opioid peptides Met- and Leu-enkephalin and their apparent precursors are localized in islet endocrine cells of the rat pancreas. To begin evaluating a possible role for these pancreatic opiates in the pathophysiology of genetic diabetes in rodents, immunoreactive beta-endorphin and Met- and Leu-enkephalins were measured in acetic acid extracts of pancreas and pituitary of C57BL/KsJ db/db mice and their lean littermates. Groups of animals were studied during three phases of development of the diabetic syndrome in the mutant mice: at 4 (hyperinsulinemic and prediabetic); 6, 9, and 12 (frankly obese and diabetic); and 30 (hypoinsulinemic) wk of age. Elevations or decreases (P less than .05) were found in db/db mice (vs. lean littermates) as follows: pituitary content of Met-enkephalin was twofold higher at all ages studied; pituitary free Leu-enkephalin was lower at 4 wk and reversed to higher at 6-30 wk; pancreatic beta-endorphin was 30% lower at 4 wk and reversed to threefold higher at 6-12 wk; Met- and Leu-enkephalin-containing larger peptides were elevated at one or more points between 6 and 12 wk in both the pancreas and the pituitary. Thus, the onset of overt obesity between 4 and 6 wk of age was accompanied by a marked rise in both pancreatic beta-endorphin and pituitary Leu-enkephalin; similar elevations in these parameters have been reported previously in C57BL/6J ob/ob mice at approximately 12 wk of age.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Altered beta-endorphin, Met- and Leu-enkephalins, and enkephalin-containing peptides in pancreas and pituitary of genetically obese diabetic (db/db) mice during development of diabetic syndrome. 294 83

A pharmacokinetic study with [3H]des-enkephalin-gamma-endorphin (3H-DE gamma E) was performed in rats after the intravenous, subcutaneous and intramuscular route of administration. Disappearance of non-metabolized 3H-DE gamma E from blood upon intravenous dosing followed a biphasic decay with half-lives of 0.7 +/- 0.3 (+/- S.D.) min for the initial distribution phase and 6.3 +/- 2.7 min for the terminal elimination phase. The central and peripheral volumes of distribution were strikingly high (0.38 and 0.55 1 X kg-1, respectively). Extensive metabolism occurred already within the first minutes after injection. The blood clearance rate was found to be 0.29 +/- 0.12 1 X min-1 X kg-1, which value points to remarkable extrahepatic elimination of the neuropeptide. As compared to the intravenous route of administration, subcutaneous or intramuscular injection of 3H-DE gamma E resulted in low but longer-lasting peptide levels in blood. These levels reached already peak values at 2 min after both routes of administration and then declined to below the limit of detection at 2-3 h. The absolute bioavailability of DE gamma E after subcutaneous injection amounted to 30.9 +/- 16.3% (range 16.0-46.9%), whereas the bioavailability after intramuscular injection was observed to be 3.5 times lower (8.5 +/- 3.0%; range 4.6-12.0%). These data suggest that subcutaneous dosing of DE gamma E might be more effective in displaying CNS activity than the intramuscular route.
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PMID:Des-enkephalin-gamma-endorphin: bioavailability in rats following the subcutaneous and intramuscular route of administration. 371 65

Our approach to the modeling of beta-endorphin has been based on the proposal that three basic structural units can be distinguished in the natural peptide hormone: a highly specific opiate recognition sequence at the N terminus (residues 1-5) connected via a hydrophilic link (residues 6-12) to a potential amphiphilic helix in the C-terminal residues 13-31. Our previous studies showed the validity of this approach and have demonstrated the importance of the amphiphilic helical structure in the C terminus of beta-endorphin. The present model, peptide 5, has been designed in order to evaluate further the requirements of the amphiphilic secondary structure as well as to determine the importance of this basic structural element as compared to more specific structural features which might occur in the C-terminal segment. For these reasons, peptide 5 retains the three structural units previously postulated for beta-endorphin; the major difference with regard to previous models is that the whole C-terminal segment, residues 13-31, has been built using only D-amino acids. In aqueous buffered solutions as well as in 2,2,2-trifluoroethanol-containing solutions, the CD spectra of peptide 5 show the presence of a considerable amount of left-handed helical structure. Enzymatic degradation studies employing rat brain homogenate indicate that peptide 5 is stable in this milieu. In delta- and mu-opiate receptor-binding assays, peptide 5 shows a slightly higher affinity than beta-endorphin for both receptors while retaining the same delta/mu selectivity. In opiate assays on the guinea pig ileum, the potency of peptide 5 is twice that of beta-endorphin. In the rat vas deferens assay, which is very specific for beta-endorphin, peptide 5 displays mixed agonist-antagonist activity. Most remarkably, peptide 5 displays a potent opiate analgesic effect when injected intracerebroventricularly into mice. At equal doses, the analgesic effect of peptide 5 is less than that of beta-endorphin (10-15%) but longer lasting. In conjunction with our previous model studies, these results clearly demonstrate that the amphiphilic helical structure in the C terminus of beta-endorphin is of predominant importance with regard to activity in rat vas deferens and analgesic assays. The similarity between the in vitro and in vivo opiate activities of beta-endorphin and peptide 5, when compared to the drastic change in chirality in the latter model, demonstrates that even a left-handed amphiphilic helix formed by D-amino acids can function satisfactorily as a structural unit in a beta-endorphin-like peptide.
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PMID:Biological and physical properties of a beta-endorphin analog containing only D-amino acids in the amphiphilic helical segment 13-31. 608 39

In our approach to beta-endorphin modeling, we have proposed that the biological properties of the natural peptide are determined by the combination of three basic structural units: a highly specific opiate recognition sequence at the NH2 terminus (residues 1-5) connected via a hydrophilic peptide link (residues 6-12) to a potential amphiphilic helix in the COOH-terminal residues 13-31. In the alpha-helical conformation the hydrophobic domain twists around the length of the helix and covers almost one-half of its surface. The other distinctive features of the helix include its basicity and the two aromatic residues Phe18 and Tyr27. In contrast to previous models we have studied, peptide 4 is a "negative" model in the sense that it was designed and examined in order to determine how the lack of a well defined amphiphilic structure affects the biological properties of beta-endorphin. For this purpose, peptide 4 retains the three structural units previously postulated for beta-endorphin, but the amino acids of the 13-31 region are arranged in such a way that no definite continuous hydrophobic zone could be formed in an alpha- or pi-helical conformation of this region. In aqueous buffered solutions, peptide 4 showed almost the same amount of alpha-helical structure as beta-endorphin, with a slight tendency toward less helicity in 50% aqueous 2,2,2-trifluoroethanol. In rat brain homogenate, peptide 4 was degraded slightly slower than beta-endorphin, in contrast to the apparently much higher stability of previous models under the same conditions. With regard to opiate receptor binding, peptide 4 was twice as potent as beta-endorphin in mu-receptor assays but half as potent in delta-receptor assays. The opiate potency of peptide 4 on the guinea pig ileum was higher than that of beta-endorphin. In contrast, in the rat vas deferens assay, which is very specific for beta-endorphin, the potency of peptide 4 was very low and could be shown not to be mediated by the same opiate mechanism or by the same opiate receptor. A comparison of these results with those of previous model peptides provides further evidence for the importance of an amphiphilic helical structure in beta-endorphin residues 13-31, which determines the resistance to proteolysis of the natural molecule and contributes to the delta- and mu-opiate receptor interaction. The amphiphilicity of this helical structure must also be essential for high opiate activity on the rat vas deferens (epsilon-receptors), whereas no such structural requirement appears to be necessary for interaction with the opiate receptors on the guinea pig ileum.
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PMID:Examination of the requirement for an amphiphilic helical structure in beta-endorphin through the design, synthesis, and study of model peptides. 630 80

Intravenous administration of gamma2-melanocyte-stimulating hormone (gamma2-MSH) to conscious rats causes a dose-dependent increase in blood pressure and heart rate, while the structurally related peptide adrenocorticotropic hormone-(4-10) (ACTH-(4-10)) is 5-10 times less potent in this respect. This prompted us to investigate which amino acid sequence is determinant for the cardiovascular selectivity of peptides of the gamma-MSH family. Lys-gamma2-MSH, most likely the endogenously occurring gamma-MSH analog, was as potent as gamma2-MSH in inducing increases in blood pressure and heart rate. Removal of C-terminal amino acids resulted in gamma-MSH-fragments which were devoid of cardiovascular activities. Removal of amino acids from the N-terminal side of gamma2-MSH resulted in fragments which were less potent, but had an intrinsic activity not different from that of gamma-MSH. Surprisingly, gamma-MSH-(6-12) was more potent than gamma2-MSH. The shortest fragment which displayed pressor and tachycardiac responses was the MSH 'core', His-Phe-Arg-Trp (= gamma-MSH-(5-8)), which is identical to ACTH-(6-9). This was corroborated by testing fragments of ACTH-(4-10). We conclude that the message essential for cardiovascular effects resides in the gamma-MSH-(5-8)/ACTH-(6-9) sequence. Proper C-terminal elongation is required for full expression of cardiovascular activity of gamma2-MSH, as the sequence of Asp9-Arg10-Phe11 appears to play an important role in establishing intrinsic activity. The amino acids N-terminal to the MSH 'core' sequence appear to be essential for the potency of the peptides.
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PMID:Cardiovascular effects of gamma-MSH/ACTH-like peptides: structure-activity relationship. 875 Jul 47

Regulatory neuropeptides are widely distributed in the gastrointestinal tract, where they play an important role in motility, secretion, and immune and inflammatory responses. In this study, the rectal mucosal content of somatostatin (SOM), substance P (SP), beta-endorphin (BE), and thyrotropin-releasing hormone (TRH) was measured by radioimmunoassay in 56 patients with ulcerative colitis (UC), 15 patients with Crohn's disease (CD), 15 patients with acute infectious colitis (AIC), and 11 controls, who showed no inflammation of the rectal mucosa, nor abnormal bowel movements. The content of immunoreactive (ir)-SOM was decreased in UC patients, especially in those with persistent disease activity, while the levels of ir-SP, BE, and TRH were increased in such patients. Some changes of ir-peptide levels were also observed in CD and AIC patients. The changes in neuropeptide levels were analyzed in relation to histological grades of inflammation in UC patients, grades 4-5 showing the most significant changes. The levels of ir-SOM, SP, BE, and TRH showed no significant change in chronic persistent UC when measured 6-12 months after the initial examination. In contrast, in patients with remitting intermittent UC, the levels of SP and BE decreased during remission. Abnormal intestinal neuropeptide content may be implicated in the continued mucosal immune and inflammatory responses that are manifested in patients with inflammatory bowel disease.
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PMID:Abnormal neuropeptide concentration in rectal mucosa of patients with inflammatory bowel disease. 884 73

In a previous structure-activity analysis we have shown that the gamma-melanocyte-stimulating hormones (gamma-MSHs) and structurally related adrenocorticotropic hormone (ACTH) fragments share an amino-acid sequence which is determinant for the effects of these peptides on peripheral hemodynamics, viz. a pressor and a tachycardiac response, in conscious rats. We now investigated whether these structural features are also important for the effects of these peptides on cerebral hemodynamics in urethane-anesthetized rats. After intracarotid and intravenous administration, the 'mother' peptides, Lys-gamma2-MSH and gamma2-MSH, and, with a 10-fold lower potency, ACTH-(4-10), caused a dose-dependent pressor and tachycardiac response, as well as an increase in extra- and intracranial blood flow and microcirculatory cerebrocortical blood flow. Removal of C-terminal amino acids resulted in gamma-MSH-fragments which were devoid of effects on peripheral and central hemodynamics. Fragments of gamma2-MSH which were shortened at the N-terminal side (gamma-MSH-(4-12) and gamma-MSH-(5-12)) were less potent than gamma2-MSH, but had an intrinsic activity similar to that of gamma2-MSH with respect to the pressor and tachycardiac effect. However, the potency and intrinsic activity of these shortened fragments on intracerebral hemodynamic parameters were the same as those of gamma2-MSH. This suggests that different mechanisms (e.g., site of action and/or melanocortin receptor subtype) are involved in the cerebral hemodynamic effects of the melanocortins and in their peripheral hemodynamic effects. Surprisingly, removal of an additional residue, His5, resulting in the fragment gamma-MSH-(6-12), led to full restoration of potency with respect to extracranial blood flow, blood pressure and heart rate. Neither the structurally related analog, [Nle4,D-Phe7]alpha-MSH (NDP-MSH), nor ACTH-(1-24) was able to induce a pressor effect or cerebral hemodynamic effects. In contrast, both compounds had a depressor effect. It is concluded that the C-terminal amino acids in the structure of gamma-MSH/ACTH-like peptides are essential for efficacy for the central hemodynamic effects, i.e., the increase in intracerebral (microcirculatory) blood flow. However, in contrast to what holds for the peripheral hemodynamic features, the N-terminal sequence has hardly any influence on potency or efficacy. The results with NDP-MSH and ACTH-(1-24) and the other fragments lead us to postulate that it is not one of the five known subtypes of melanocortin receptors which mediates the hemodynamic effects of the melanocortins, but an additional, still unidentified subtype. A clue for the elucidation of such a receptor might be found in the structural features of gamma-MSH-(6-12) that appear to be very important determinants for the effectiveness to alter peripheral and central hemodynamics.
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PMID:Structure-activity analysis for the effects of gamma-MSH/ACTH-like peptides on cerebral hemodynamics in rats. 901 26


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