Exposure to Nerve Agents: from Status Epilepticus to Neuroinflammation, Brain Damage, Neurogenesis and Epilepsy

Overview

Journal Neurotoxicology

Specialties Environmental Health
Neurology
Toxicology

Date 2012 Sep 25

PMID 23000013

Citations 66

Authors

Marcio de Araujo Furtado

Franco Rossetti

Soma Chanda

Debra Yourick

Affiliations

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Abstract

Epilepsy is a common neurological disorder characterized by an initial injury due to stroke, traumatic brain injury, brain infection, or febrile seizures causing status epilepticus (SE). This phenomenon precedes recurrent (secondary) seizures, the latent period (period without seizures) and downstream appearance of spontaneous recurrent seizures (SRS). Epilepsy inducers include the organophosphorous (OP) compounds modified as chemical warfare nerve agents, such as soman. SE induced by soman is a result of cholinergic system hyperactivity caused by the irreversible inhibition of acetylcholinesterase, and the subsequent increase in the amount of the neurotransmitter acetylcholine at central and peripheral sites. SE leads to profound, permanent, complex and widespread brain damage and associated cognitive and behavioral deficits, accompanied by impaired neurogenesis. Several anticonvulsant and neuroprotective strategies have been studied in order to avoid the epileptogenesis which occurs after SE caused by soman exposure. In recent studies, we showed that SRS occur post-soman exposure and neuropathology can be reduced with diazepam (DZP) and valproic acid (VPA) when administered in combination treatment. These effects are accompanied by neurogenesis seen 15 days post-exposure in the hippocampal dentate gyrus (DG). This review discusses several findings about epilepsy induced by soman exposure such as behavioral changes, EEG anomalies, neuropathology, neuroinflammation, neurogenesis, possible circuitry changes and current strategies for treatment. The soman seizure model is an important model of temporal lobe epilepsy (TLE) and comparable in certain respects with well studied models in the literature such as pilocarpine and kainic acid. All these models together allow for a greater understanding of the different mechanisms of seizure induction, propagation and options for treatment. These studies are very necessary for current military and civilian treatment regimens, against OP nerve agent exposure, which fail to prevent SE resulting in severe neuropathology and epilepsy.

Citing Articles

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Andrew P, MacMahon J, Liu X, Saito N, Berger K, Morgan J CNS Neurosci Ther. 2025; 31(3):e70215.

PMID: 40022508 PMC: 11871396. DOI: 10.1111/cns.70215.

Neurological manifestations of encephalitic alphaviruses, traumatic brain injuries, and organophosphorus nerve agent exposure.

VanderGiessen M, de Jager C, Leighton J, Xie H, Theus M, Johnson E Front Neurosci. 2024; 18:1514940.

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scL-2PAM: A Novel Countermeasure That Ameliorates Neuroinflammation and Neuronal Losses in Mice Exposed to an Anticholinesterase Organophosphate.

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Acute intoxication with diisopropylfluorophosphate promotes cellular senescence in the adult male rat brain.

Tsai Y, Gonzalez E, Grodzki A, Bruun D, Saito N, Harvey D Front Toxicol. 2024; 6:1360359.

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The α4 Nicotinic Acetylcholine Receptor Is Necessary for the Initiation of Organophosphate-Induced Neuronal Hyperexcitability.

Andrew P, Feng W, Calsbeek J, Antrobus S, Cherednychenko G, MacMahon J Toxics. 2024; 12(4).

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