Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0036572 (seizures)
 80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have characterised the induction of the mitogen-inducible form of cyclooxygenase, COX-2, in the rat cerebral cortex in response to excitotoxin injection into the nucleus basalis. This model is associated with intense stimulation of the ascending pathway to the cerebral cortex, seizure activity, and subsequent ipsilateral cortical induction of various immediate early genes (IEGs), including c-fos, c-jun, and zif268, and ornithine decarboxylase enzyme activity and mRNA, all of which processes are sensitive to treatment with the N-methyl-D-aspartate (NMDA) receptor antagonist MK-801. In this study we show that excitotoxin injection also causes a marked induction of COX-2 mRNA in ipsilateral cortex detectable at 1 h and peaking at 4 h, where COX-2 mRNA levels were 19 times those in unoperated animals. Levels of COX-2 mRNA remained significantly elevated at 24 h. The early induction of COX-2 at 1 h was also seen in sham-operated animals, but at 4 h the COX-2 mRNA level was significantly increased (4.4-fold) in animals injected with excitotoxin compared with sham-operated animals. The induction at this time point (4 h) was explored pharmacologically and found to be significantly attenuated by treatment with MK-801 (1.5 mg/kg), lamotrigine (10 mg/kg), which prevents presynaptic glutamate release by blocking voltage-sensitive Na+ channels, and the glucocorticoid dexamethasone (3 mg/kg), which has an indirect inhibitory effect on phospholipase A2 and COX activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cyclooxygenase-2 induction in cerebral cortex: an intracellular response to synaptic excitation. 852 90

A novel G-to-A transition at nucleotide 15915 in mtDNA is described. The patient showed a combination of muscle weakness, hearing loss, mental retardation, and seizures. Muscle biopsy showed RRFs and focal COX deficiency. We sequenced all mtDNA, and found 5 novel nucleotide substitutions. Three of them were synonymous mutations, one was a missense mutation in cytochrome b gene (A-->G at nt 15422), and the last one was the 15915 mutation in tRNA(Thr) gene. We screened for the 15422 and the 15915 mutations with mismatch primers and found that one of 104 normal individuals carried the former one and none of 175 had the latter one. The 15422 mutation existed in homoplasmic states both in the patient and the normal individual, suggesting that this is a polymorphism. In contrast the 15915 mutation resided in heteroplasmic states in muscle, skin fibroblast and blood. The nucleotide substitution at nt 15915 disrupts a highly conserved base pair in anticodon stem of the tRNA(Thr). Our data suggest that the 15915 mutation is an additional mtDNA mutation responsible for mitochondrial encephalomyopathies.
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PMID:A novel mutation in the mitochondrial tRNA(Thr) gene associated with a mitochondrial encephalomyopathy. 876 14

Administration of tacrine (5 mg/kg i.p.), an anticholinesterase agent, in rats pretreated (24 h beforehand) with lithium chloride (LiCl; 12 mEq/kg i.p.) enhances the expression of neuronal nitric oxide (NO) synthase (NOS), increases NO, and causes seizures and hippocampal damage. Here we report immunohistochemistry evidence showing that in rat LiCl and tacrine enhance the expression of cyclooxygenase type 2 (COX-2) enzyme protein in the dorsal hippocampus and elevate brain PGE2 content during the preconvulsive period. The latter effect, but not enhanced COX-2 expression, is inhibited by previous (30 min before tacrine) administration of N omega-nitro-L-arginine-methyl ester (L-NAME; 10 mg/kg i.p.), an inhibitor of NO synthesis, thus implicating NO in the mechanism of stimulation of COX activity leading to elevation of brain PGE2 content. Indomethacin (10 mg/kg given i.p. 30 min before tacrine), an inhibitor of COX activity, prevented brain PGE2 elevation and abolished the expression of seizures and hippocampal damage thus supporting a role for this metabolite of the arachidonic acid cascade in the mechanisms of LiCl and tacrine-evoked neurotoxicity in rat.
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PMID:Systemic administration of N omega-nitro-L-arginine methyl ester and indomethacin reduces the elevation of brain PGE2 content and prevents seizures and hippocampal damage evoked by LiCl and tacrine in rat. 950 Sep 67

Prostaglandin E(2) (PGE(2)) is the major prostaglandin produced both centrally and in the periphery in models of acute and chronic inflammation, and its formation in both locations is blocked by cyclooxygenase-2 (COX-2) inhibitors such as celecoxib. In animal models of inflammation, PGE(2) inhibition in the brain may occur secondarily to a peripheral action by inhibiting local PG formation that elicits increased firing of pain fibers and consequent activation of PG synthesis in the central nervous system (CNS). Celecoxib was studied in the kainate-induced seizure model in the rat, a model of direct central prostaglandin induction, to determine whether it can act directly in the CNS. In the kainate-treated rat brain there was increased PGE(2), PGF(2alpha), and PGD(2) production, with COX activity and PGE(2) formation increased about 7-fold over normal. We quantitated mRNA levels for enzymes involved in the prostaglandin biosynthetic pathways and found that both COX-2 and PGE synthase (PGEs) mRNA levels were increased in the brain; no changes were found for expression of COX-1 or PGD synthase mRNA. By Western blot analysis, COX-2 and PGEs were induced in total brain, hippocampus, and cortex, but not in the spinal cord. Immunohistological studies showed that COX-2 protein expression was enhanced in neurons. Dexamethasone treatment reduced the expression of both COX-2 and PGEs in kainate-treated animals. Celecoxib reduced the elevated PGE(2) levels in brain of kainate-treated rats and inhibited induced COX activity, demonstrating the ability of this compound to act on COX-2 in CNS. Doses of celecoxib that inhibited brain COX-2 were lower than those needed for anti-inflammatory activity in adjuvant arthritis, demonstrating a potent direct central action of the compound.
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PMID:Pharmacology of celecoxib in rat brain after kainate administration. 1218 39

Ethylmalonic encephalopathy (EE) is a rare metabolic disorder with an autosomal recessive mode of inheritance that is clinically characterized by neuromotor delay, hyperlactic acidemia, recurrent petechiae, orthostatic acrocyanosis, and chronic diarrhea. Increased urinary levels of ethylmalonic acid and methylsuccinic acid are the main biochemical features of the disorder. We report on two patients affected by EE who showed different clinical and neuroradiological patterns. Patient 1 presented with a chronic clinical course characterized by very slow neuromotor deterioration, ataxia, and dysarthria. In contrast, patient 2 had an acute neonatal onset with severe neuromotor retardation, severe generalized hypotonia, and intractable seizures. Neuroradiological follow-up of patient 1 detected a diffuse hyperintensity on the T2 images at the basal ganglia which remained stable during a period of four years. Patient 2, in contrast, showed a rapid process of cerebral, and in part, cerebellar atrophy. On the basis of our observations, we reviewed the data published in the literature and tried to delineate the natural history of EE, which appears to be characterized by a wide spectrum of severity in the clinical course. No reports on neuroradiological follow-up of EE patients are available in the literature with which to compare our data. Finally, both patients showed a muscle COX deficiency. The pathogenetic implications of such a biochemical finding will be also discussed.
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PMID:Ethylmalonic encephalopathy: further clinical and neuroradiological characterization. 1238 64

Celecoxib is a selective cyclooxygenase-2 (COX-2) inhibitor, COX-2 has been shown to be upregulated by convulsive nerve activity. Various earlier studies have given conflicting reports on the effect of COX inhibitors on seizures. This study investigates the effect of pretreatment with celecoxib alone, or in combination with phenytoin, on electroshock-induced convulsions. Both percentage protection (i.e., the percentage of animals not showing Tonic Hind Limb Extension [THLE] when a fixed dose of current is administered) and CC50 (i.e., the threshold current inducing THLE in 50%) was determined using a technoconvulsometer. Celecoxib and phenytoin were administered 1 and 2 h, respectively, prior to the experiments. When administered alone, celecoxib showed an increase in percentage protection at increasing doses, with maximum percentage protection (66.6%) occurring at a 30 mg/kg-1 dose. The ED25 value of celecoxib was calculated to be 8.03 mg/kg-1. The CC50 values for the treatment groups were significantly increased compared with the control group (CC50 values for control, celecoxib 10 mg/kg-1, celecoxib 20 mg/kg-1 and celecoxib 30 mg/kg-1, respectively, were 36.3, 49.12, 100.3 and 125.02 mA). An increase in percentage protection was noted when celecoxib 8.03 mg/kg-1 was coadministered with phenytoin 6 mg/kg-1 (66.6% with the combination vs. 16.6% when administered individually). A significant increase was noted in the CC50 value in a combination regimen (CC50 = 79.06) compared with either drug administered alone (CC50 = 49.12 with celecoxib 8.03 mg/kg-1 and 62.06 with phenytoin 6 mg/kg-1). This study may stimulate further interest in the role of COX-2 inhibitors in the modulation of seizure activity.
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PMID:Anticonvulsant action of celecoxib (alone and in combination with sub-threshold dose of phenytoin) in electroshock induced convulsion. 1273 53

In single cases mitochondrial disorders may manifest as pancreatitis, but recurrent, chronic pancreatitis with exacerbations of at least 15 times without morphological alterations of the pancreas but concomitant diabetes mellitus has not been reported. In a 57-year-old Caucasian male mitochondrial disorder was diagnosed at the age of 49 years upon epilepsy with generalized and focal seizures, cognitive decline, migraine, mitochondrial myopathy, polyneuropathy, diabetes mellitus, hypokalie-mia, hyperlipidemia, atrial fibrillation, heart failure, sicca syndrome, recurrent pancreatitis, chronic diarrhea, polydipsia, hyperhidrosis, steatosis hepatis, anemia, thrombopenia, an abnormal lactate stress test, and a muscle biopsy showing ragged-red muscle fibers, single completely COX-negative fibers, target fibers, increased number of sarcoplasmatic lipid droplets, but normal mitochondrial morphology on electron microscopy. Between the age of 33 years and the age of 44 years, at least 15 episodes of pancreatitis, manifesting as severe abdominal pain, and elevated exocrine pancreatic enzymes, but without morphological alterations of the pancreas, responding well to H2-blockers and food restriction had occurred. Recurrent pancreatitis without morphological alterations of the pancreas may be a feature of multisystem mitochondrial disorder resulting in diabetes mellitus. Physicians should familiarize with pancreatitis as a manifestation of a mitochondrial disorder and mitochondrial disorder should be excluded in patients with pancreatitis.
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PMID:Recurrent pancreatitis as a manifestation of multisystem mitochondrial disorder. 1791 91

We sought to explore nonselective vs. selective COX mechanisms in ECS-induced retrograde amnesia using indomethacin and celecoxib as in vivo probes. Adult Wistar rats (n=72) which showed adequate learning on a passive avoidance task received 5 once-daily 30 mC true or sham ECS. During the learning and ECS periods, indomethacin (4 mg/kg/day), celecoxib (15 mg/kg/day), or vehicle were orally administered. One day after the fifth ECS, recall of pre-ECS learning was tested. There were no baseline or pre-ECS differences in learning between groups. ECS seizure duration did not differ across groups. ECS-treated rats showed impaired recall in the vehicle but not indomethacin and celecoxib groups. Celecoxib but not indomethacin significantly protected against ECS-induced retrograde amnesia. We interpret these results as follows: ECS may impair cognition by pathologically upregulating glutmatergic signalling, thereby causing cation and water influx, oxidative stress, and saturation of hippocampal LTP. These may result from glutamatergic disinhibition through COX-2-mediated removal of endogenous cannabinoids, and by ECS-activated, NMDA-mediated upregulation of platelet activating factor and COX-2 signalling pathways. Thus, indomethacin and celecoxib, by inhibiting COX-2, may protect against ECS-induced amnesia. Furthermore, COX-2 mediated increase in hippocampal kynurenic acid may impair glutamate-dependent learning and memory processes at ionotropic glutamatergic receptor sites; the inhibition of kynurenic acid synthesis by celecoxib and its induction by indomethacin may explain the greater benefits with celecoxib. These findings suggest new avenues for the study of the neurobiology of ECT-induced amnesia and the attenuation thereof.
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PMID:Possible glutamatergic and lipid signalling mechanisms in ECT-induced retrograde amnesia: experimental evidence for involvement of COX-2, and review of literature. 1793 34

Increased expression of drug efflux transporters at the blood-brain barrier accompanies epileptic seizures and complicates therapy with antiepileptic drugs. This study is concerned with identifying mechanistic links that connect seizure activity to increased P-glycoprotein expression at the blood-brain barrier. In this regard, we tested the hypothesis that seizures increase brain extracellular glutamate, which signals through an N-methyl-d-aspartate (NMDA) receptor and cyclooxygenase-2 (COX-2) in brain capillaries to increase blood-brain barrier P-glycoprotein expression. Consistent with this hypothesis, exposing isolated rat or mouse brain capillaries to glutamate for 15 to 30 min increased P-glycoprotein expression and transport activity hours later. These increases were blocked by 5H-dibenzo[a,d]cyclohepten-5,10-imine (dizocilpine maleate) (MK-801), an NMDA receptor antagonist, and by celecoxib, a selective COX-2 inhibitor; no such glutamate-induced increases were seen in brain capillaries from COX-2-null mice. In rats, intracerebral microinjection of glutamate caused locally increased P-glycoprotein expression in brain capillaries. Moreover, using a pilocarpine status epilepticus rat model, we observed seizure-induced increases in capillary P-glycoprotein expression that were attenuated by administration of indomethacin, a COX inhibitor. Our findings suggest that brain uptake of some antiepileptic drugs can be enhanced through COX-2 inhibition. Moreover, they provide insight into one mechanism that underlies drug resistance in epilepsy and possibly other central nervous system disorders.
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PMID:Seizure-induced up-regulation of P-glycoprotein at the blood-brain barrier through glutamate and cyclooxygenase-2 signaling. 1831 94

COX-2 and prostaglandins (PGs) might play important roles in epilepsy. In kainic acid-induced seizures, the brain largely increases PGD(2), first from COX-1 and later COX-2-induced PGF(2alpha). Pre-treatment with COX-2 inhibitors such as indomethacin, nimesulide, and celecoxib is known to aggravate kainic acid (KA)-induced seizure activity. However it is not known whether the proconvulsant effect of those non-steroidal anti-inflammatory drugs (NSAIDs) is due to changes in endogenous prostaglandins (PGs), or what types of PGs are involved. The purpose of this study was to determine the effect of intracisternally administered PGs on KA-induced seizures aggravated by pre- or post-treatment with COX-2 inhibitors. Systemic KA injection (10 mg/kg i.p.) in mice evoked mild seizure activity within 15 min. PGs were administrated intracisternally 20 min prior to KA administration. COX inhibitors (indomethacin, nimesulide, and ketoprofen, 10 mg/kg i.p.) were injected 1 h before or 15 min after KA. An additional COX-2 inhibitor, celecoxib, was administered orally. Intracisternally administered PGF(2alpha) (700 ng), but not PGD(2) (700 ng) or PGE(2) (700 ng) completely alleviated KA-induced seizures potentiated by COX-2 inhibitors, and also reduced KA-induced hippocampal neuronal death aggravated by indomethacin. PGF(2alpha) alone did not affect KA-induced seizures. However, an FP receptor antagonist, AL 8810 (10 or 50 ng) which is an 11beta-fluoro analogue of PGF(2alpha) potentiated KA-induced seizure activity dose-dependently. In summary, pre- or post-treatment with COX-2 inhibitors aggravates KA-induced seizures, which suggests to change the endogenous PGF(2alpha). Seizure-induced PGF(2alpha) might act as an endogenous anticonvulsant through FP receptors.
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PMID:Involvement of endogenous prostaglandin F2alpha on kainic acid-induced seizure activity through FP receptor: the mechanism of proconvulsant effects of COX-2 inhibitors. 1817 79


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