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)

The biochemical and pharmacological properties of an endogenous anticonvulsant substance(s) found in rat cerebrospinal fluid (CSF) following seizures are described. CSF taken from donor rats following a single maximal electroshock (MES) seizure caused significant elevations in seizure thresholds in naive recipient rats when intracerebroventricularly injected 15 min prior to exposure to the volatile convulsant flurothyl. Anticonvulsant activity was antagonized by pre-injection in recipients of high doses of naloxone or the selective delta-opioid receptor antagonist ICI 174,864. The anticonvulsant activity was also lost when the CSF was exposed to heat (90 degrees C) or immobilized trypsin. Although unaffected by the peptidase inhibitors thiorphan and bestatin, the anticonvulsant activity was significantly potentiated by a combination of aprotinin and bacitracin. Ultrafiltration of CSF revealed that the anticonvulsant activity passed through membranes with a 10,000 molecular weight cut-off, but was retained by membranes with a 5000 molecular weight cut-off. CSF removed from rats following MES had significantly increased concentrations of beta-endorphin-like, but not dynorphin A, Leu- or Met-enkephalin-like immunoreactivities relative to CSF from sham-treated rats. However, significant increases in Met-enkephalin-like immunoreactivity were measured following exposure of the CSF to the proteolytic enzymes trypsin and carboxypeptidase B, suggesting the seizure-induced presence of a higher molecular weight form of Met-enkephalin not recognized immunologically prior to enzyme exposure. These data reconfirm the anticonvulsant actions of postseizure CSF, and indicate that these effects require mediation through delta-opioid receptors in the recipient rat. These data additionally argue against these effects being mediated by Met-enkephalin, Leu-enkephalin or dynorphin A in the CSF, and suggest instead that anticonvulsant effects are attributable to a heat- and trypsin-sensitive opioid peptide(s) with a molecular weight approximately in the range of 5000-10,000 Da.
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PMID:Characterization of opioid peptide-like anticonvulsant activity in rat cerebrospinal fluid. 245 10

The Rett syndrome is a postnatal developmental and neurological disorder seen only in girls. Many of the symptoms of this disorder, such as microcephaly, stereotypy, respiratory disturbances and seizures, are analogous to the effects of the administration of beta-endorphin or other opioids in animals. Preliminary reports of elevated beta-endorphin-like immunoreactivity in the cerebrospinal fluid of girls with the Rett syndrome, as well as improvement in some of their symptoms during the administration of the opioid antagonist naltrexone, are suggestive of endorphinergic hyperactivity. Thus, the pathophysiology of the Rett syndrome might involve excessive stimulation of opioid receptors in the central nervous system by beta-endorphin or other endogenous opioids.
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PMID:Possible hyperendorphinergic pathophysiology of the Rett syndrome. 247 33

Neurological disorders, such as seizures, are not infrequently associated with anti-leukemic therapy. It has been hypothesized that a disrupted peptidergic transmission between neurons could be the cellular basis of the neurological dysfunction. Since endogenous opioids have been recently found to alter neuronal function and possess anticonvulsant properties, the cerebrospinal fluid (CSF) immunoreactive beta-endorphin levels in children with Acute Lymphoblastic Leukemia (ALL) during chemotherapy and cranial irradiation have been studied. Twenty-seven children, 2 at low, 20 at medium and 5 with high risk ALL, undergoing prophylactic treatment for meningeal leukemia, entered the study. Sequential lumbar punctures with introduction of MTX combined with oral prednisone therapy were performed; each lumbar puncture sample was collected and assayed for immunoreactive beta-endorphin. All the patients studied showed a biphasic profile of the peptide with the minimum levels reached during the induction (days 14-28) and the maximum levels detected at the end of the intensification chemotherapy (days 49-55). In the 3 groups the beta-endorphin decrease corresponded to the period of prednisone therapy; the increase was concomitant with the suspension of oral glucocorticoids. 3 patients showed tonic-clonic seizures which coincided with the lowest cerebrospinal fluid beta-endorphin levels and, in the follow-up, 13 out of 27 patients displayed EEG abnormalities. From these findings a relationship between cerebrospinal fluid beta-endorphin concentrations and neuronal excitability in patients with ALL can be suggested. It is also evidenced that oral glucocorticoid therapy has profound inhibitory effects on central beta-endorphin levels.
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PMID:Immunoreactive beta-endorphin levels in cerebrospinal fluid of children with acute lymphoblastic leukemia: relationship with glucocorticoid therapy and neurological complications. 253 Nov 80

The GABAB agonist baclofen is reported to produce general anesthesia when administered either centrally into the lateral ventricles of rats or peripherally to mice. Previously we demonstrated that beta-endorphin given intracerebrally produces anesthesia in rats, a response localized to sites in or adjacent to the inferior third and fourth ventricles. In order to compare the anatomical localization of these two anesthetic responses, we administered baclofen into the inferior or superior lateral or third ventricles, the aqueduct, or fourth ventricle in rats. Although 10 micrograms baclofen infusions into several regions caused loss of the righting reflex, in no case did animals exhibit an unconscious state which satisfied strict criteria of anesthesia. Infusions of 20 micrograms into the inferior third and fourth ventricles elicited seizures followed by a postictal depression. Although unresponsive to some stimuli, these animals showed no impairment in the corneal reflex. Since this dose was often lethal, higher doses not tested. Baclofen, given to mice intraperitoneally at doses of 25, 50, or 75 mg/kg, failed to elicit strictly defined anesthesia, although, to varying degrees, animals exhibited analgesia, loss of the righting reflex, and loss of behavioral responses to loud sounds. Animals continued to show motor responses when handled and retained corneal reflexes. Baclofen does not evoke an unconscious anesthetic state when administered centrally or systemically, emphasizing the need for strict criteria to define general anesthesia and to categorize drugs that promote this state.
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PMID:Mechanisms of general anesthesia: brain regional responses to baclofen. 255 52

We report seizures induced by adrenocorticotropic hormone (ACTH), which were demonstrated clinically and electro-encephalographically, in a severely handicapped 7-month-old infant with West syndrome due to perinatal hypoxicischemic encephalopathy. Although tonic spasms (original seizures) decreased soon after starting ACTH treatment, new brief tonic seizures, somewhat more slowly motioned than the original tonic spasms, frequently appeared only during sleep after consecutive ACTH injections for 11 days, in place of the tonic spasms seen in the waking state. After discontinuation of ACTH therapy with the last injection on the 16th day, the brief tonic seizures began to decrease and finally disappeared in 8 days. Ictal EEG of new brief tonic seizures revealed diffuse fast spiky wave bursts, 50-150 microV and 10-20 c/s, with a duration of 0.5-4 seconds, which were different from attenuation associated with low voltage rhythmic fast activity corresponding to tonic spasms, the original seizures. Therefore, we considered that the new brief tonic seizures, which appeared only during sleep in the course of ACTH therapy, were ACTH-induced seizures.
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PMID:ACTH-induced seizures in an infant with West syndrome. 255 40

Neuropeptides have been proposed to play a role in regulation of the seizure threshold and interictal behavior in experimental models of epilepsy, but there are few studies concerning neuropeptides in human epilepsy. We compared the levels of two peptides, somatostatin (SLI) and beta-endorphin (BEP) in lumbar cerebrospinal fluid (CSF) of unmedicated (N = 18) and medicated (n = 24) epileptic patients with the levels of these peptides in control (n = 20). Peptide levels in the CSF of patients with panic disorder (8) were also evaluated. Patients with chronic medicated epilepsy had a SLl level 80% (p = 0.003, Mann-Whitney U-test) that of the controls, 76% (p = 0.011) that of unmedicated patients, and 84% (p = 0.028) that of the panic group. BEP in the CSF did not differ in unmedicated, medicated and control patients. On the other hand, patients with panic disorder had higher levels of BEP in CSF than did the controls (117%, p = 0.041). In panic patients SLl was at control level. The present study indicates that the peptidergic systems are affected differentially in epilepsy and in panic disorder. Furthermore, there seems to be selectivity in the affect on peptidergic systems during the period when the epilepsy becomes chronic.
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PMID:Somatostatin and beta-endorphin levels in cerebrospinal fluid of nonmedicated and medicated patients with epileptic seizures. 256 69

Pentylenetetrazol (PTZ, 45 mg/kg, ip) impaired retention of a one-trial step-through inhibitory avoidance task when injected into male Swiss mice 10 min after training, as indicated by retention performance 48 h later. The amnestic effect of PTZ was prevented by naltrexone (0.01 or 0.10 mg/kg, ip) administered after training, but prior to PTZ-treatment. On the contrary, neither naltrexone methyl bromide (0.01, 0.10, or 10.0 mg/kg, ip), a quaternarium analog of naltrexone, nor MR2266 (0.01 or 0.10 mg/kg, ip), a putative kappa opiate receptor antagonist, modified the behavioral effects of PTZ. On the other hand, the body seizures produced by PTZ were unaffected by any of the three opiate receptor antagonists that were given before the convulsant. Taken together, these results suggest that the effects of PTZ on retention are mediated, at least in part, by opioid peptides of central origin, and rules out a possible participation of opioid peptides derived from prodynorphin-precursor molecule. Administration of beta-endorphin (0.01 or 0.10 microgram/kg, ip) 10 min prior to testing attenuate the retrograde amnesia caused by PTZ. The effect of beta-endorphin was prevented by the simultaneous administration of naltrexone (0.10 mg/kg, ip) prior to testing. Naltrexone has no effect of its own upon retrieval. These results suggest that the impairment of retention induced by PTZ is probably due, at least in part, to a release of opioid peptides in the brain during the post-training period. PTZ given after training do not affect consolidation or memory storage, as mice thus treated may retrieve the learned information when they are submitted to an appropriate neurohumoral and/or hormonal state in the test session, that is, beta-endorphin injection. Therefore, the action of PTZ would be primarily at the level of the mechanism that make stored information available for late retrieval.
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PMID:The impairment of retention induced by pentylenetetrazol in mice may be mediated by a release of opioid peptides in the brain. 282 89

Neuropeptides represent a new class of compounds with important implications for the understanding of the mechanisms and treatment of epileptic disorders. Several systems of peptide modulators--in particular the opioid-like peptides, vasopressin, somatostatin, thyrotropin-releasing hormone (TRH) and ACTH--have partially demonstrated endogenous roles in some forms of epilepsy. Seizures and stressful situations may release endogenous opioid peptides and mediate postictal depression and postictal seizure refractoriness. Vasopressin is believed to increase susceptibility to convulsions and may be involved in the pathogenesis of febrile convulsions. Derangements in TRH regulation may lower thresholds for seizure expression by regulating arousal systems; however, some TRH analogs have proven to be effective anticonvulsants. Long-term alterations in somatostatin regulation could be components of focal epilepsies. ACTH is particularly useful in the treatment of infantile spasms. Pharmacological effects of these and other peptides have potentials for defining new classes of anticonvulsants. Cholecystokinin (CCK) and its analogs, the opioid peptides beta-endorphin and FK33824, TRH analogs, and several dipeptides exhibit potent anticonvulsant properties in chemical, electroshock, and genetic model screens. Convulsant actions of CRF, somatostatin, TRH, vasopressin, and high doses of endorphin or enkephalins may provide new tools to study regulatory mechanisms of cerebral excitability. The enkephalin epileptogenic effect is being developed as a predictive tool for new anti-petit mal anticonvulsants. Advances in molecular biology have identified the genes of particular peptide families. A concept has developed that the large propeptide precursors, coded by these genes, whose processing leads to functional peptide formation and release, regulate peptidergic humoral responses to external stimuli. This idea may have particular application in the understanding of the genetic basis of some seizure states. Techniques for amplification of mRNA expression have identified specific neuronal proteins and peptides. Knowledge of protein and propeptide structural cleavage sites has suggested previously unknown candidates for modular systems in epileptic states. Technological advances in automated peptide sequencing and synthesis have allowed the development of metabolically resistant analogs and antagonist peptides. The anticonvulsant potencies of CCK, TRH, and opioid peptides have been defined more clearly with these methods.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Neuropeptides: anticonvulsant and convulsant mechanisms in epileptic model systems and in humans. 287 23

The anticonvulsant action of the new anticonvulsant drug gamma-vinyl-GABA (GVG) is obviously mediated by elevation of the concentration of GABA in the brain. The effect of GVG administration on other transmitter systems is not fully known in humans. We studied the possible interactions of GVG administration with peptidergic systems. Included in this study were 67 patients with complex partial epilepsy (CPS). The first CSF sample was taken before GVG administration. The second CSF sample was taken after 3 months of GVG treatment (3 g/day). Thereafter half of the responders (50% decrease in seizure frequency or clear improvement in global performance) received 3 g/day and the other half received 1.5 g/day for the next three months, after which the third CSF sample was taken. Somatostatin (SLI), beta-endorphin (beta-EP), and prolactin (PROL) levels in CSF were measured by radioimmunoassay. Total GABA (tGABA) and GVG levels in CSF were measured by high performance liquid chromatography. After 3 months of GVG treatment there was a slight increase in the beta-EP (p = 0.027, Student's paired t-test), which was not found after 6 months of GVG administration. Both SLI and PROL were stable during the study. Peptide levels were not connected to the clinical response to GVG, GVG dosage, or to tGABA levels in the CSF. In conclusion, the elevation of GABA levels in the brain during GVG treatment apparently does not induce long-term interactions with the peptidergic systems studied.
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PMID:Somatostatin, beta-endorphin, and prolactin levels in human cerebrospinal fluid during the gamma-vinyl-GABA treatment of patients with complex partial epilepsy. 288 76

The possible role of different peptidergic systems in the postictal stage of human epilepsy was studied by measuring beta-endorphin, somatostatin, and prolactin levels by radioimmunoassay of cerebrospinal fluid (CSF) from nine epileptic patients. The first sample was taken within 2 hours after generalised tonic-clonic convulsion, and the second sample was obtained interictally after 1-4 days without any kind of clinically observable seizures. beta-endorphin was elevated postictally (p = 0.044) compared with interictal levels. SLI and PROL were similar in both samples. The present study suggests that in humans beta-endorphin is released into CSF during generalised seizures. This may indicate that neurons containing beta-endorphin are activated during a seizure.
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PMID:Beta-endorphin, somatostatin, and prolactin levels in cerebrospinal fluid of epileptic patients after generalised convulsion. 289 Jul 16


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