Pierre Carpentier scite author profile

SUMMARYPurpose: Neuroinflammation appears as a prominent feature of the mesiotemporal lobe epilepsy syndrome (MTLE) that is observed in human patients and animal models. However, the precise temporal relationship of its development during epileptogenesis remains to be determined. The aim of the present study was to investigate (1) the time course and spatial distribution of neuronal death associated with seizure development, (2) the time course of microglia and astrocyte activation, and (3) the kinetics of induction of mRNAs from neuroinflammatoryrelated proteins during the emergence of recurrent seizures. Methods: Experimental MTLE was induced by the unilateral intrahippocampal injection of kainate in C57BL/6 adult mice. Microglial and astrocytic changes in both ipsilateral and contralateral hippocampi were examined by respectively analyzing griffonia simplicifolia (GSA) lectin staining and glial fibrillary acidic protein (GFAP) immunoreactivity. Changes in mRNA levels of selected genes of cytokine and cytokine regulatory proteins (interleukin-1b, IL-1b; interleukin-1 receptor antagonist, IL-1Ra; suppressor of cytokine signaling 3, SOCS3) and enzymes of the eicosanoid pathway (group IVA cytosolic phospholipase A2, cPLA 2 -a; cycloxygenase-2, COX-2) were studied by reverse transcription-quantitative real time polymerase chain reaction. Key Findings: Our data show an immediate cell death occurring in the kainate-injected hippocampus during the initial status epilepticus (SE). A rapid increase of activated lectin-positive cells and GFAP-immunoreactivity was subsequently detected in the ipsilateral hippocampus. In the same structure, Il-1b, IL-1Ra, and COX-2 mRNA were specifically increased during SE and epileptogenesis with a different time course. Conversely, the expression of SOCS3 mRNA, a surrogate marker of interleukin signaling, was mainly increased in the contralateral hippocampus after SE. Significance: Our data show that specific neuroinflammatory pathways are activated in a time-and structuredependent manner with putative distinct roles in epileptogenesis.

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Histological and histochemical changes in the central nervous system of the rat poisoned by an irreversible anticholinesterase organophosphorus compound

Lemercier

et al. 1983

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The effect of soman, a powerful organophosphorus (OP) cholinesterase inhibitor, was investigated in the central nervous system (CNS) of Wistar rats by neurohistology, histochemical mapping of acetylcholinesterase (AChE), and biochemical determination of cholinesterase (ChE) activity. Rats were poisoned by one lethal or sublethal subcutaneous (s.c.) injection or by several less strong weekly doses. When the acute cholinergic action of the OP led to severe respiratory failure and to repeated or prolonged convulsions, the surviving rats exhibited neuronal changes similar to those of hypoxic encephalopathy. In one case chronic intoxication gave rise to these symptoms and lesions after the fourth injection. The histochemical data showed that lesioned gray structures were generally poor in AChE. The enzymatic inhibition was quick and strong, but differed from one structure to another. ChE recovery was rapid until about 96 h after poisoning, the time course depending on the structure, but was incomplete even after 8 days. An attempt to correlate the initial level of ChE inhibition with the severity of the symptoms was not very conclusive. Our data suggest that the encephalopathy comes at least in part from complex hypoxic factors produced by the cholinergic crisis. The sequelae of slight hypoxic encephalopathy could account for some nervous long-term effects in men acutely poisoned by OP and surviving owing to mechanical ventilation.

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Soman-induced convulsions: The neuropathology revisited

et al. 2005

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Effects of soman-induced seizures on different extracellular amino acid levels and on glutamate uptake in rat hippocampus

et al. 1991

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