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: UMLS:C0036572 (seizures)
80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Inhibitors of nitric oxide synthase (NOS) have been reported to increase mean arterial pressure in animal models of sepsis and recently have been given to patients in septic shock. However, controlled studies to determine the effects of these agents on cardiovascular function and survival in awake animal models of sepsis have not been reported. To examine the therapeutic potential of NOS inhibition in septic shock, we challenged canines with endotoxin (2 or 4 mg/kg i.v.) and treated them with either normal saline or N omega-amino-L-arginine (10 or 1 mg/kg/h), the most specific inhibitor available for the isoform of NOS implicated in septic shock. Endotoxemic animals treated with N omega-amino-L-arginine (n = 11) had higher systemic and pulmonary vascular resistance indices (SVRI and PVRI, p less than or equal to 0.033) and decreased heart rates (p = 0.009), cardiac indices (CI, p = 0.01), oxygen delivery indices (p = 0.027), and oxygen consumption indices (p = 0.046) compared with controls (n = 6). Moreover, N omega-amino-L-arginine increased mortality rates after endotoxin challenge (10 of 11 vs. 1 of 6 controls, p = 0.005). Administration of L-arginine did not improve survival or alter the cardiopulmonary effects of N omega-amino-L-arginine, which suggests that inhibition of NOS may not have been competitive. In normal animals, N omega-amino-L-arginine alone (n = 3) increased SVRI (p = 0.0008) and mean arterial pressure (p = 0.016), and decreased CI (p = 0.01) compared with saline-treated controls (n = 3), but, at the high dose, also produced neuromuscular rigidity and seizure-like activity that was not apparent in the endotoxemic model. Thus, the mortality rate from endotoxemia increased either because of NOS inhibition per se or because of properties unique to N omega-amino-L-arginine, or both.
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PMID:N omega-amino-L-arginine, an inhibitor of nitric oxide synthase, raises vascular resistance but increases mortality rates in awake canines challenged with endotoxin. 138 77

In response to NMDA receptor activation, hippocampal, striatal and cerebellar neurons synthesize nitric oxide (NO), which in turn elevates cGMP levels via guanylate cyclase. NO is increasingly being considered as a transsynaptic retrograde messenger, involved in neuronal plasticity. The effect of an inhibitor of NO synthase, L-NG-nitroarginine (NOArg), was studied on amygdala kindling and on kindled seizures in rats. NOArg increased kindling rate, particularly in its initial period, but did not modify seizure severity in previously kindled rats, although we have no definitive explanation for this effect. However, an enhanced post-synaptic excitability could be attributed to the blockade of the negative feed-back exerted by NO on the NMDA receptor.
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PMID:A nitric oxide (NO) synthase inhibitor accelerates amygdala kindling. 138 71

Low doses of quinolinic acid (QUIN) administered intracerebroventricularly (ICV) to rats produced either no damage or mild to moderate damage in the pyramidal cell layer of the hippocampus and resulted in mild, limbic seizures in the majority of animals treated. The same dose of QUIN following ICV pretreatment with the nitric oxide synthase inhibitor N-nitro-L-arginine (NARG), produced extensive hippocampal lesions with complete loss of the pyramidal layer in 50% of the animals, and moderate damage with total neuronal loss in areas CA1 and CA3 in the remainder of the group. Animals treated with both NARG and QUIN also exhibited a greater incidence of severe convulsive behavior (9/11) and 3 deaths. Pretreatment with the nitric oxide-generating drug molsidomine attenuated the enhanced toxicity observed with combined NARG-QUIN treatment, resulting primarily in no detectable hippocampal damages and mild seizures resembling those produced by QUIN alone. Administration of NARG alone produced neither seizure activity nor histological evidence of neurotoxicity. We conclude that inhibition of nitric oxide production with NARG potentiates the neurotoxicity of quinolinic acid in the rat hippocampus.
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PMID:Potentiation of quinolinate-induced hippocampal lesions by inhibition of NO synthesis. 149 87

High amplitude spiking representative of seizures, accompanied by an unusual motor behavior pattern of rearing and forelimbic clonus resembling "boxing," was elicited by microinjection of the cholinergic agonist, carbachol, 4 micrograms, into the medial prefrontal cortex of the rat. A rating scale devised to score the behavior revealed a motor pattern elicited by carbachol from the medial anterior cortex which was similar to that described by Racine for electrical stimulation of the amygdala. Topographical analysis of the areas surrounding the medial anterior cortex region revealed that the motor manifestations of seizures were elicited over a wide region of the anterior cortex, with scores significantly lower at carbachol microinjection sites greater than 1 mm rostral, 2 and 3 mm caudal, and 2 mm lateral to the standard medial prefrontal cortex site. Unilateral microinjection of carbachol yielded motor seizures primarily from the contralateral forepaw, suggesting involvement of a crossed pathway. Retrograde tracing with fast blue dye, combined with immunostaining for choline acetyltransferase and NADPH-diaphorase, found that the cholinergic neurons innervating the standard microinjection site were the dorsolateral tegmental cells, as previously reported, which have been shown to also contain substance P and corticotropin releasing factor. In addition, cholinergic neurons of the nucleus basalis of Meynert region were found to innervate the standard microinjection site. These findings implicate cholinergic innervation of the rostral cortex in classical limbic seizures.
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PMID:Anatomical analysis of frontal cortex sites at which carbachol induces motor seizures in the rat. 317 34

Stargazer mutant mice inherit a recessive neuronal excitability phenotype featuring frequent non-convulsive spike-wave seizures that arise from synchronous bursting in neocortical, thalamic and hippocampal networks. Immunocytochemistry reveals that granule cells in the mutant dentate gyrus aberrantly express neuropeptide Y (NPY) at multiple ages following the developmental onset of seizures. The ectopic NPY is selectively concentrated in the mossy fibers, co-localizing with the releasable dense core vesicle pool. The NPY content of native NPY+local circuit neurons is also elevated in the mutant CNS. There is no concurrent elevation of hippocampal 72 kDa heat shock protein (HSP72), glial fibrillary acidic protein (GFAP) or NADPH-diaphorase, three markers that are induced during cellular injury, and no evidence of granule cell loss. Since mossy fiber NPY expression appears after the developmental onset of spike-wave discharges and can be induced in wild type granule cells by electrical stimulation, the altered peptide phenotype is likely to reflect transynaptic gene induction triggered by synchronous bursting. These results link a specific pattern of repetitive synaptic input with selective molecular plasticity in dentate granule cells that may contribute to dynamic modifications in hippocampal network excitability.
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PMID:Aberrant expression of neuropeptide Y in hippocampal mossy fibers in the absence of local cell injury following the onset of spike-wave synchronization. 747 19

Using a reverberatory epilepiform discharge of hippocampal-parahippocampal circuits termed "maximal dentate activation", this study investigated whether the local release of nitric oxide within these circuits functions as an antiepileptic agent. Two nitric oxide synthase inhibitors (L-nitro-arginine methyl ester and 7-nitro-indazole) and a guanylate cyclase inhibitor (methylene blue) were tested, and none had a significant effect on the time to onset or duration of maximal dentate activation. A membrane-permeable analogue of cyclic guanosine monophosphate (cGMP), 8-bromo-cGMP, caused an increase in the time to onset and a decrease in the duration of maximal dentate activation. The number of neurons expressing NADPH diaphorase activity (a marker for nitric oxide synthase) was also examined after repeated elicitation of maximal dentate activation. After 18 seizures there was a significant, but transient, decrease in the number of hilar/subgranular neurons that were NADPH diaphorase-positive. The decrease was only seen at 1 h after the last seizure. There was no induction of NADPH diaphorase activity. These results are not consistent with the hypothesis that, in hippocampal-parahippocampal circuits in vivo, nitric oxide is released in response to neuronal activity and then acts to terminate the neuronal activity.
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PMID:In the hippocampus in vivo, nitric oxide does not appear to function as an endogenous antiepileptic agent. 749 93

Repeated administration of cocaine to animals results in sensitization to several reactions to the drug, including seizures and mortality. These consequences are thought to be related to the pathology that develops in humans abusing cocaine. Previous studies implied the involvement of the N-methyl-D-aspartate (NMDA) type of glutamate receptors in cocaine-induced toxicity, and recent studies documented a role for nitric oxide in NMDA-receptor mediated neurotoxicity. The present study was undertaken to determine whether nitric oxide synthase inhibitors block the development of sensitization to the toxic effects of cocaine in mice. Repeated administration of cocaine (45 mg/kg/day; intraperitoneally) to Swiss Webster mice, for 7 days, resulted in a progressive increase in the duration of the convulsive response to cocaine, an increase in the number of animals that had seizures, and augmentation in lethality rate. Pretreatment with NG-nitro-L-arginine methyl ester (L-NAME; 100 mg/kg/day; intraperitoneally) or NG-nitro-L-arginine (NO-Arg; 25 mg/kg/day; intraperitoneally) completely abolished the sensitization to the convulsive and lethal responses to cocaine. Receptor binding assays indicated first, that pretreatment with L-NAME apparently diminished cocaine-induced upregulation of cortical NMDA receptors, and second, that the effects of the nitric oxide synthase inhibitors tested are not mediated via a direct interaction of the drugs with the phencyclidine/NMDA receptor complex. Taken together, the present study suggests an important role for nitric oxide in the development of sensitization to the toxic effects of cocaine, and further supports the relationship between NMDA-receptor mediated neurotoxicity and nitric oxide.
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PMID:Blockade of sensitization to the toxic effects of cocaine in mice by nitric oxide synthase inhibitors. 751 59

The effect of L-arginine (L-Arg), D-arginine (D-Arg), N-nitro-L-arginine methyl ester (L-NAME) and N-monomethyl-L-arginine (L-NMMA) on the kainate-induced seizures was studied in mice. It was found that the precursor of nitric oxide (NO) L-Arg (150-600 mg/kg i.p.) increased dose-dependently the dose of kinate necessary to produce clonic convulsions in 50% of the animals (CD50). Such an anticonvulsant effect was not observed in mice pretreated with D-Arg (150-600 mg/kg i.p.), the latter drug not being a substrate for NO formation. The inhibitors of NO synthase L-NAME and L-NMMA, both administered in doses of 30-30 mg/kg i.p., reduced the convulsive threshold by decreasing the CD50 of kainate. Moreover, L-NAME (3 mg/kg) antagonized the anticonvulsant effect of L-Arg (300 mg/kg). These results indicate that NO may play a role of an endogenous anticonvulsant substance in mice.
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PMID:The role of nitric oxide in the kainate-induced seizures in mice. 751 94

In paraformaldehyde-fixed sections of healthy brain, glial cells at the light-microscope level do not contain measurable levels of NADPH-diaphorase. However, after a variety of lesions in the mouse brain, some reactive astrocytes express varying amounts of this enzyme. Following stab wounds, activated astrocytes or related glial cells surrounding the lesion, contained moderate to high levels of NADPH-diaphorase in the cerebellum, midbrain, thalamus, striatum, hippocampal formation and neocortex. Double-labelling experiments confirmed that this corresponds to an inducible form of nitric oxide synthase, similar to that found in activated macrophages. Within the lesion there were large numbers of macrophages which also contained NADPH-diaphorase. After 10 min of global hypoxic ischaemia, some reactive astrocytes also contained NADPH-diaphorase. These cells were confined to the dorsal part of the hippocampal formation (the dentate fascia and CA1 areas) and to the anterolateral striatum. More focal ischaemic damage, produced by dividing an arterial branch, also produced a rim of reactive astrocytes containing NADPH-diaphorase, that surrounded the area of necrosis. Low levels of NADPH-diaphorase were induced within one day of a stab wound and the enzyme activity reached near maximal levels by two days postlesion. Moderate NADPH-diaphorase activity was still present at 63 days postlesion, but only a small number of astrocytes were stained in the immediate vicinity of the lesion. These experiments confirm that NADPH-diaphorase activity represents inducible nitric oxide synthase in activated astrocytes and probably in inflammatory macrophages. We conclude that a high proportion of activated astrocytes and a small proportion of invading macrophages are induced to express moderate to high levels of nitric oxide synthase following neuronal damage. Our results indicate that following a variety of lesions reactive astrocytes are synthesizing significant levels of nitric oxide within 24 h. This nitric oxide may be involved in modulating the likelihood of epileptic seizures.
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PMID:NADPH-diaphorase activity in activated astrocytes represents inducible nitric oxide synthase. 752 Jan 36

The effects of alpha-guanidinoglutaric acid (GGA), the levels of which were increased in the cobalt-induced epileptic focus tissue in the cerebral cortex of cats, on brain nitric oxide synthase (NOS) activity were observed. GGA inhibited NOS activity in a linear mixed manner (Ki = 2.69 microM) and was as effective as NG-monomethyl-L-arginine (MeArg; Ki = 3.51 microM), a well-known NOS inhibitor. Although MeArg was synthesized by substituting the guanidino nitrogen of L-arginine (Arg), GGA was a non-guanidino nitrogen-substituted guanidino compound. On the other hand, Arg, which is an endogenous NOS substrate, elevates the threshold of seizures induced by GGA. There is evidence that GGA is an endogenous, potent, and non-guanidino nitrogen-substituted NOS inhibitor and that suppression of nitric oxide biosynthesis may be involved in GGA-induced convulsions. Therefore, GGA may be a useful tool in elucidating the chemical nature of NOS and the physiological function of nitric oxide.
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PMID:alpha-Guanidinoglutaric acid, an endogenous convulsant, as a novel nitric oxide synthase inhibitor. 752 94


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