DrugBank:APRD00631 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: DrugBank:APRD00631 (Gel)
14,881 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have identified an inhibitor of the protein C anticoagulant pathway in the plasma of a patient with systemic lupus erythematosus and a history of recurrent deep vein thrombosis, fetal wastage, and seizures. The patient's plasma contained anticardiolipin antibodies as well as a weak lupus anticoagulant. Examination of this patient's plasma revealed normal levels of protein C and protein S antigen, normal levels of functional protein C, as well as essentially normal levels of every blood coagulation factor. In a modified prothrombin time assay, the activated protein C-mediated prolongation of the clotting time observed in normal plasma was not observed in this patient's plasma. Gel permeation chromatography of the patient's plasma revealed that the inhibitory material was a high molecular weight protein that coeluted with the IgM peak. The inhibitor did not appear to circulate as a complex with protein C, since the inhibitor could easily be separated from protein C during fractionation procedures, and did not interfere with the activation of protein C in plasma as assessed by a functional amidolytic assay. Our findings suggest that the recurrent thrombotic episodes observed in this patient may have occurred as a result of the patient's antiphospholipid antibody neutralizing specific phospholipids essential for the full expression of the anticoagulant activity of activated protein C.
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PMID:Impairment of the protein C anticoagulant pathway in a patient with systemic lupus erythematosus, anticardiolipin antibodies and thrombosis. 210 91

Animals from the El (susceptible to seizures) and ddy (nonsusceptible) mouse strains were subjected to vestibular stimulation by tossing. After convulsions in the El mice, both the stimulated El mice and ddY mice were intracranially injected with [14C]- and [3H]adenosine, respectively. In the control experiment, nonstimulated El and ddY mice received radioactive adenosines in the same manner. The rate of incorporation of adenosine into brain nuclear RNA, expressed as a percentage of the 3H; 14C ratio, was reduced to an average of 68% at 15 min after convulsions, then increased and reached a control value at 5 h. This reduction in nuclear RNA synthesis was not due to alteration of the adenosine triphosphate pool. Gel electrophoresis of RNA revealed no obvious differences in the labeling distribution between El and ddY mice, but the synthesis of RNA species larger than 35S in heterogeneous nuclear RNA (HnRNA) was impaired in convulsed El mice. Nuclear resistant segments of HnRNA with both T1 RNase and RNase A, were chromatographed with poly(U)-Sepharose followed by urea-polyacrylamide gel electrophoresis. The ologo(A) and poly(A) segments consisted of 29, 19, and 11, and 203, 135, and 69 nucleotides, respectively. The convulsions of El mice reduced the incorporation of radioactive adenosines into oligo(A) and poly(A) segments, suggesting that they inhibited transcription as well as polyadenylation within HnRNA.
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PMID:Effect of convulsions of the synthesis of heterogeneous nuclear RNA associated with polyadenylate and oligoadenylate sequences from El mouse brain as a convulsive strain. 669 Mar 28

Studies of the genetics of epilepsy have, until recently, involved epidemiologic or segregation analyses of phenotypic characteristics of a number of seizure disorders. Technical advances in molecular biology involving gene mapping and gene identification have made it possible to examine the heritability of various epilepsy syndromes. Using "reverse genetics" or positional cloning, it is possible to identify an abnormal protein through gene isolation and cloning. Genes are localized through analysis of linkage to phenotypic markers (proteins) or DNA markers such as restriction fragment length polymorphisms, variable number of tandem repeats, and dinucleotides. Methods used to obtain DNA of interest involve digestion of genomic DNA with specific restriction endonucleases or amplification of DNA by polymerase chain reaction technology. Gel electrophoresis is the basis for the separation of different sized DNA. Inherited disorders for which a gene has been cloned or localized have highly penetrant, well-defined clinical phenotypes with no remissions and abundant clinical material. Genetic epilepsies, however, are variably penetrant age-dependent disorders with heterogeneous clinical phenotypes. Despite these difficulties, three genetic epilepsies have been mapped to specific chromosomes: benign familial neonatal convulsions to 20q, juvenile myoclonic epilepsy to 6p, and Baltic progressive myoclonus epilepsy to 21q. Further progress in understanding genetic epilepsies will depend on better definition of syndrome phenotypes, isolation of the epilepsy gene(s), and identification of the abnormal protein(s).
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PMID:Genetics of epilepsy: an overview. 809 8

A number of stimuli including acute footshock and electrically-induced seizures lead to release of beta-endorphin immunoreactivity from the anterior pituitary corticotropes. Gel filtration of this beta-endorphin immunoreactivity indicates that approximately 3-fold more beta-endorphin than beta-lipotropin is released into plasma following these acute stressors. A similar preponderance of beta-endorphin over beta-lipotropin is seen in the media of short-term anterior lobe cell suspensions stimulated with ovine corticotropin-releasing hormone. Previous studies indicated that footshock stress, when administered repeatedly, can increase the biosynthesis of anterior lobe proopiomelanocortin (POMC) as indicated by increased steady state adrenocorticotropin/beta-endorphin content as well as increased POMC mRNA levels and increased POMC biosynthesis and rate of processing as measured by pulse-labeling and pulse-chase studies. The goal of the present studies was to determine whether this increased biosynthetic drive results in an alteration in the end products secreted with repeated stress. Acute footshock in a rat which has received 14 days of chronic footshock releases proportionately more beta-lipotropin than is released in a naive rat. Chronic electrically-induced seizures, which also increase anterior lobe POMC derived peptide stores, lead to a similar shift in the ratio of beta-lipotropin:beta-endorphin released following stress. These data suggest that chronic drive and the subsequent changes in POMC peptide stores may lead to a decrease in the proportion of beta-endorphin size immunoreactivity in the releasable pool of the anterior lobe corticotrope, thus altering the hormonal signal from the anterior lobe corticotrope.
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PMID:Altered ratios of beta-endorphin:beta-lipotropin released from anterior lobe corticotropes with increased secretory drive. II. Repeated stress. 838 74

Rapid expression of ICER (inducible cyclic AMP early repressor), an inducible member of the CREM (cyclic AMP response element modulator) family of transcription factors, has been reported in neuroendocrine tissues and cell lines, but not in brain. In the present study, we demonstrate that acute electro-convulsive seizure (ECS) increases the expression of ICER in several rat brain regions. RNase protection analysis demonstrated that 1-2 h after administration of ECS, levels of mRNA for ICER and a splice variant, ICER gamma, were significantly increased in hippocampus, frontal cortex, and cerebellum. It is surprising that ECS also increased levels of mRNA for several CREM isoforms that previous studies have reported were not rapidly inducible. In situ hybridization analysis confirmed these findings and demonstrated that ECS induction of ICER was most obvious in the dentate gyrus granule cell layer of hippocampus and deep layers of cerebral cortex. Induction of ICER and CREM was accompanied by increased expression of two small CRE-binding complexes. Gel supershift analysis with CREM/ICER antisera confirmed that the inducible CRE-binding complexes contain CREM/ICER. Induction of CREM and ICER may contribute to negative feedback regulation of gene transcription that is increased by acute seizure and activation of CREB (cyclic AMP response element-binding protein.
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PMID:Electroconvulsive seizure increases the expression of CREM (cyclic AMP response element modulator) and ICER (inducible cyclic AMP early repressor) in rat brain. 852 85

We examined the involvement of the GABAB receptor and the coordinated induction of nuclear transcriptional factors in experimental generalized absence seizures induced by gamma-butyrolactone (GBL) in mice. Although administration of GBL 50 mg/kg did not show any effects on behavior or ECoG pattern, higher doses of GBL (70 and 100 mg/kg, i.p.) induced behavioral changes associated with 3-6-Hz spike and wave discharges in the mice. CGP 35348, a GABAB receptor antagonist, suppressed both the GBL-induced absence seizures and the spike and wave discharges. The antiepileptic effects of CGP 35348 (200 mg/kg, i.p.) were stronger than those of ethosuximide (200 mg/kg, i.p.). Sodium valproate (100 mg/kg, i.p.) attenuated the early phase but not the late phase of the GBL-induced absence seizures. Gel-mobility assay demonstrated that administration of an effective dose of GBL for eliciting spike and wave discharges dose-dependently increased nuclear cyclic AMP-responsive element (CRE)- and activator protein 1 (AP-1) DNA-binding activities in mouse whole brain. The increases in nuclear CRE- and AP-1 DNA-binding were antagonized by CGP 35348 in a dose-dependent fashion. In addition, GABAB receptor binding assay revealed that GBL or antiepileptic drugs did not displace [3H]baclofen binding in cerebral cortical membranes. In contrast, gamma-hydroxybutyrate (GHB), an active metabolite of GBL, inhibited [3H]baclofen binding in a concentration-dependent manner. These results suggest that GABAB receptor-mediated synaptic responses are involved in GBL-induced generalized absence seizures and that the increases in nuclear CRE- and AP-1 DNA-binding activities are correlated with the GBL-induced generalized absence seizures.
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PMID:gamma-Butyrolactone-induced absence-like seizures increase nuclear CRE- and AP-1 DNA-binding activities in mouse brain. 868 96

Gel retardation electrophoresis revealed that binding of a radiolabeled double stranded oligonucleotide probe for the nuclear transcription factor activator protein-1 (AP1) was markedly potentiated 2 h after the intraperitoneal injection of kainic acid (KA) at a dose range of 10-40 mg/kg in a dose-dependent manner in the murine hippocampus. The potentiation was seen in a manner independent of the crisis of convulsive seizures following the administration of KA at different doses. At the highest dose employed, the systemic KA significantly potentiated the AP1 binding in most central discrete structures examined except the cerebellum. In contrast, KA significantly potentiated binding of a radiolabeled probe for cyclic AMP response element binding protein (CREB) in a dose-dependent fashion in the hippocampus, without altering that in other parts of murine brain. No significant alteration was detected in binding of a probe for c-Myc in any brain regions examined 2 h after the administration of KA at different doses. However, immunoblotting analysis demonstrated that KA was ineffective in altering endogenous levels of both CREB and CREB phosphorylated at serine133 in the hippocampus and cerebellum. These results suggest that in vivo systemic KA signals may be selectively transduced to nuclear AP1 in the hippocampus through a mechanism different from phosphorylation of CREB at serine133 in murine brain.
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PMID:Particular nuclear transcription factors responsive to systemic administration of kainic acid in murine brain. 888 88

The expression of the proteins (C-FOS and C-JUN) encoded by the immediate early genes c-fos and c-jun was investigated in the brains of rats undergoing ethanol withdrawal. Both proteins were induced in the cerebral cortex, the piriform cortex, the olfactory bulb, the inferior colliculus, the granular cell layer of the cerebellum and in the brain stem, but only C-JUN was induced in the hippocampus of animals undergoing withdrawal without overt seizures. C-FOS was detected in the hippocampus only in animals with overt seizures. Maximal C-FOS expression occurred 15 hr after withdrawal while C-JUN was maximal at 24 hr. Gel-shift assays indicated the formation of AP-1 binding factors in nuclear extracts of the cerebral cortex, hippocampus and cerebellum 15 and 17 hr after withdrawal. These data reveal a complex pattern of immediate early gene expression during ethanol withdrawal, which may be associated with changes in neuronal plasticity underlying phenomena such as withdrawal kindling.
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PMID:Gene expression during ethanol withdrawal. 897 22

The characterized nuclear cyclic AMP responsive element (CRE)- and activator protein 1 (AP-1) DNA-binding activities in various brain regions of lethargic (lh/lh) mice, a genetic model of absence seizures. Gel-shift assays showed that nuclear CRE- and AP-1 DNA-binding activities in the thalamus and cerebral cortex, but not in other regions such as the hippocampus and cerebellum of lethargic mice were significantly higher than those of non-epileptic control mice. Furthermore, CRE- and AP-1 DNA-binding activities in lethargic mice, but not control mice, were inhibited by the specific GABA(B) receptor antagonist CGP 46831, at a dose which suppressed seizure behavior and spike and wave discharges. These results suggest that enhanced nuclear CRE- and AP-1 DNA-binding activities in the thalamocortical region are related to generation and/or propagation of absence seizures in lethargic mice.
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PMID:Characterization of absence seizure-dependent cyclic AMP responsive element-and activator protein 1 DNA-binding activities in lethargic (lh/lh) mice. 1007 71

The quinolone antibacterials enoxacin and norfloxacin (2.5 mg/kg, i.v.) provoked clonic convulsions in mice treated concomitantly with biphenylacetic acid (BPAA, 100 mg/kg, i.p.), a major metabolite of the nonsteroidal anti-inflammatory drug fenbufen. Gel-shift assays showed that enoxacin-induced convulsions resulted in increases in nuclear activator protein 1 (AP-1) DNA- and cyclic AMP responsive element (CRE)-binding activities in the cerebral cortex and hippocampus, but not in other regions, such as the cerebellum and thalamus. In contrast, ofloxacin and levofloxacin, at the same doses, in the presence of BPAA did not evoke convulsions or increase these DNA-binding activities. Administration of these quinolones and BPAA alone elicited neither convulsions nor increases in these DNA-binding activities. These results suggest that the increased nuclear AP-1 DNA- and CRE-binding activities in the cerebral cortex and hippocampus induced by quinolones with BPAA correlated with seizure activities and that these brain regions play pivotal roles in quinolone-induced convulsions.
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PMID:Characterization of quinolone antibacterial-induced convulsions and increases in nuclear AP-1 DNA- and CRE-binding activities in mouse brain. 1034 Mar 9

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