UNIPROT:P01189 - FACTA Search

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 guinea pig cochlea was studied for the presence of immunoreactivities to the four unique enkephalin sequences contained in the preproenkephalin A. The antisera to Met-enkephalin-Arg6-Phe7 and Met-enkephalin-Arg6-Gly7-Leu8 were used as highly specific markers for the preproenkephalin A. Contrary to Met-enkephalin and Leu-enkephalin, also included in the present study, these two peptide sequences are not contained in pro-opiomelanocortin or preproenkephalin B (prodynorphin). All the four different antisera showed identical localization for the four peptide sequences, suggesting their coexistence in the same nervous pathway. Specific immunofluorescence was found in intraganglionic spiral bundle, inner spiral bundle, tunnel spiral bundle and in association with inner hair cells. The nerve fibers were thin and varicose, suggesting that most, if not all, of them were unmyelinated. Their localization indicates that the unique enkephalin sequences contained in preproenkephalin A are present in the cochlear efferent pathway to the inner hair cell region.
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PMID:Immunohistochemical localization of unique enkephalin sequences contained in preproenkephalin A in the guinea pig cochlea. 639 72

This study addressed the possible coexistence of products of the proenkephalin and prodynorphin opioid peptide precursors in single neurons of the central nervous system of the rat. Antisera directed against met-enkephalin-arg-gly-leu and against Dyn B were used in immunohistochemical preparations of sections through the rat medulla. Examination of serial three micron frozen sections stained alternately with the two different antisera revealed that the majority of labelled neurons stain with only one of the two antisera. In specific area, however, immunoreactive m-enk and Dyn B could be detected in the same neuron. This was particularly true of the caudal ventrolateral nucleus of the solitary tract, where the two peptides were colocalized in most neurons. Other areas where the two peptides coexist include the midline raphe and the nucleus reticularis paragigantocellularis. These data provide the first evidence for colocalization of different opioid peptide families in single CNS neurons.
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PMID:Colocalization of immunoreactive proenkephalin and prodynorphin products in medullary neurons of the rat. 639 21

Using a BESM-6 computer, a computer system for accumulation and comparative analysis of amino acid sequences (AS) of protein-peptide hormones and their precursors (the so-called computer bank of protein hormone AS) was developed. A Fortran-based program designed for construction of correspondence schemes of AS and their local similarity profiles was elaborated. In combination with the previous programs this system allows a rapid inclusion of the newly deciphered sequences into the corresponding homologous groups, thus complementing the correspondence scheme and specifying the evolution profiles. A comparative analysis of AS in proopiomelanocortin (POMC), proenkephalin (PENK) and prodynorphin (PDIN) revealed evolutionary-conservative and variable sites. The conservative sites of AS are active centers of the hormones. The leu-enkephalin analog, phorphin, the fourth repeating peptide of this precursor, was detected in prodynorphin, which, similar to beta-neo-endorphin, dynorphin and rimorphin may possess a biological activity. The similarity of the effector sites of the melanotropin sequence from POMC to the met-enkephalin sequence from PENK and leu-enkephalin sequence from PDIN as well as to gastrin and cholecystokinin was established. This may suggest that the hormone-receptor complexes in target organs of these hormones are also similar.
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PMID:[Computer bank of amino acid sequences of protein hormones. Comparative analysis of the sequences in pro-opio-melanocortin, proenkephalin and prodynorphin: detection of phorphin--the 4th repeating peptide in prodynorphin]. 668 73

The opioidergic innervation of the mammalian spleen and possible species differences were investigated. Light-microscopic immunohistochemistry revealed that splenic nerves of bovine and porcine spleen, but not of rat, mouse, hamster and guinea-pig spleen contained proenkephalin-derived opioidergic innervation. Immunoreactivity to both prodynorphin and pro-opiomelanocortin was absent from splenic nerves. In bovine and porcine spleen, fibers immunoreactive for met-enkephalin, met-enkephalin-Arg-Phe, met-enkephalin-Arg-Gly-Leu, leu-enkephalin and peptide F formed perivascular plexus, traveled in trabecular connective tissue, and extended into the capsule. Spatial relationships with immune cells were apparent in the white and red pulp, excluding lymphoid follicles. Colocalization of enkephalin immunoreactivity with immunoreactivities for tyrosin hydroxylase, dopamin-beta-hydroxylase, and neuropeptide Y, but not for substance P or calcitonin gene-related peptide were found. Our results provide evidence that opioid expression in splenic innervation is strongly species-dependent and exclusively proenkephalin-derived. Colocalization with marker enzymes of noradrenergic neurons indicates a mainly postganglionic sympathetic origin of proenkephalinergic splenic innervation. Opioidergic perivascular nerves probably control the splenic blood flow. A close interrelationship of opioidergic fibers with immune cells provides the anatomical basis for direct effects of neurally released opioids on splenic immune functions.
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PMID:Pro-enkephalin opioid peptides are abundant in porcine and bovine splenic nerves, but absent from nerves of rat, mouse, hamster, and guinea-pig spleen. 762 19

Endogenous opioid peptides derived from all three opioid precursors have been isolated from the pituitary of mammalian species. While beta-endorphin of the anterior lobe was soon shown to be secreted into the circulation as a hormone, the dynorphins and the enkephalins were found to occur in relative small quantities too low for export and effects in the periphery. With respect to the prodynorphin family in the neural lobe convincing evidence has been accumulated for a role of dynorphin A(1-8) in the local control of the release of the hormone oxytocin. The function of the enkephalins in the anterior and neural lobes, in spite of many efforts with in situ hybridization, immunocytochemistry, receptor autoradiography and receptor binding and bioassays, is still elusive. Research should be directed into the role of enkephalins in different physiological states, developmental stages and in non-mammalian vertebrate species.
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PMID:Opioid peptides in the pituitary: a hormone, a paracrine modulator and a peptide in search of a function. 769 35

Patients with obsessive-compulsive disorder (OCD) demonstrated significant levels of antibody for somatostatin-28, its C-terminal fragment somatostatin-14, and prodynorphin. In contrast there were lower levels of reactivity for somatostatin-28(1-14) (the N-terminal fragment of somatostatin-28) and negligible reactivity for several other peptides including beta-endorphin and corticotropin. Healthy volunteers and disease controls [schizophrenia, Alzheimer's disease, multiple sclerosis, and subjects with advanced human immunodeficiency virus (HIV) infection] exhibited negligible reactivity. These data raise the consideration of an autoimmune mechanism for some OCD.
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PMID:Serum antibody for somatostatin-14 and prodynorphin 209-240 in patients with obsessive-compulsive disorder, schizophrenia, Alzheimer's disease, multiple sclerosis, and advanced HIV infection. 791 13

In situ hybridization and specific radioimmunoassays were used to study the influence of ethanol on proopiomelanocortin (POMC) and prodynorphin (PDYN) biosynthesis in the rat pituitary. Repeated intragastric ethanol administration (starting with a total daily dose of 5 g/kg every 2nd day, until a dose of 10 g/kg was attained on the 10th day and that dose was maintained by the 19th day) resulted in a reduction in the POMC mRNA level (about 20%) in the intermediate lobe of the pituitary (3 h after the last dose), whereas the level of beta-endorphin in the neurointermediate lobe was attenuated (by about 32%) only during the withdrawal (48 h after the last dose). Additionally, the plasma level of beta-endorphin after repeated ethanol and during withdrawal was significantly reduced (by about 44 and 66%, respectively). No changes in the POMC mRNA or the beta-endorphin levels were detected in the anterior lobe. In contrast, the PDYN mRNA level was found to be decreased in the anterior lobe during the withdrawal (by about 43%). This decrease was in conjunction with an increase in the alpha-neoendorphin level (by about 57%) in that lobe. The PDYN mRNA level in the intermediate lobe and the alpha-neoendorphin level in the neurointermediate lobe were unchanged after ethanol, as well as during the withdrawal period. Acute ethanol (5 g/kg) decreased the level of beta-endorphin in the anterior lobe; this effect being associated with an elevation in the peptide level in plasma. On the other hand, acute ethanol had no effect on the POMC and PDYN mRNA levels, nor did it affect the alpha-neoendorphin concentration in the pituitary.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Repeated ethanol differently affects opioid peptide biosynthesis in the rat pituitary. 796 92

Big dynorphin (prodynorphin 209-240), dynorphin A (prodynorphin 209-225), dynorphin B (prodynorphin 228-240), beta-endorphin (beta-lipotrophin 61-90), or Met-enkephalin, each infused into the third ventricle, were tested for their effect on PRL release in the anesthetized turkey hen. Laying hens that received big dynorphin at the rate of 0.35 nmol/min showed a 5.1-fold increase in serum PRL at the end of a 30-min infusion period. In a second experiment, the big dynorphin-induced PRL increase was 2.6-fold. Nest-deprived, previously incubating hens that received big dynorphin displayed an 8.2-fold increase in serum PRL. Laying and nest-deprived incubating control birds infused with saline displayed no PRL increases. Laying hens that received dynorphin A (0.35 nmol/min) showed a 1.5-fold increase in serum PRL after 30 min of infusion; after 40 min of infusion, this increase rose to 2.7-fold. Infusions of beta-endorphin (0.35 nmol/min), or Met-enkephalin (0.35 nmol/min) failed to evoke PRL increases in either laying or nest-deprived incubating turkeys. Infusion of big dynorphin or dynorphin A for 120 min maintained an elevated PRL level across the period, a level equal to that evoked by electrical stimulation of the medial preoptic nucleus (ES/POM). Infusion of dynorphin B (0.48 nmol/min) or a reduced dose of dynorphin A (0.09 nmol/min) augmented the PRL response evoked by ES/POM. No augmentation was noted for beta-endorphin or Met-enkephalin, nor for saline-infused controls. The dynorphin-induced PRL response appeared to be dose-dependent.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dynorphin modulates prolactin secretion in the turkey. 810 40

The opioid peptide system in the brain is probably the most extensive and diverse peptidergic transmission system. Three peptide precursors, pro-opiomelanocortin, proenkephalin and prodynorphin produce over 20 opioid peptides collectively known as the endorphins, enkephalins and dynorphins. Their effects are mediated by three receptors mu, delta and kappa, and the opioid system has control over several physiological functions including pain, locomotion, mood, diuresis, thermoregulation, stress, respiratory, gastrointestinal and cardiovascular function. Lead treatment (primarily using rat models) has shown that exposure to this metal in the perinatal period alters the development of endorphins and enkephalins, toxic effects which for the pro-opiomelanocortin products may be manifested at the gene level. Lead also alters the development of mu and delta receptors and biological responses to opioids such as analgesia, locomotion and stress responses. There are indications that the dynorphin/kappa opioid system is less affected than the mu and delta systems and this may suggest vulnerability to toxicity in the postnatal period as kappa systems are fully developed at birth whilst mu and delta systems are immature. In addition, hypothalamic and pituitary disruption of opioid peptides, plus alteration of stress-mediated activity by lead point to toxicity upon opioid controlled hormonal function. Comparative studies with other CNS neurochemicals and measures of blood lead levels suggest that opioid peptides are among the most sensitive neurotransmitter/neurohormonal systems to toxic insult by lead.
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PMID:Lead toxicity and alterations in opioid systems. 824 86

Research has suggested that exogenous opioid substances can have direct effects on cardiac muscle or influence neurotransmitter release via presynaptic modulation of neuronal inputs to the heart. In the present study, multiple-labelling immunohistochemistry was employed to determine the distribution of endogenous opioid peptides within the guinea-pig heart. Approximately 40% of cardiac ganglion cells contained immunoreactivity for dynorphin A (1-8), dynorphin A (1-17) and dynorphin B whilst 20% displayed leu-enkephalin immunoreactivity. Different populations of opioid-containing ganglion cells were identified according to the co-existence of opioid immunoreactivity with immunoreactivity for somatostatin and neuropeptide Y. Immunoreactivity for prodynorphin-derived peptides was observed in many sympathetic axons in the heart and was also observed, though to a lesser extent, in sensory axons. Leu-enkephalin immunoreactivity was observed in occasional sympathetic and sensory axons. No immunoreactivity was observed for met-enkephalin-arg-gly-leu or for beta-endorphin. These results demonstrate that prodynorphin-derived peptides are present in parasympathetic, sympathetic and sensory nerves within the heart, but suggest that only the prodynorphin gene is expressed in guinea-pig cardiac nerves. This study has shown that endogenous opioid peptides are well placed to regulate cardiac function via both autonomic and sensory pathways.
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PMID:Endogenous opioid peptides in parasympathetic, sympathetic and sensory nerves in the guinea-pig heart. 862 99

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