Time-dependent neuropathology in rats following organophosphate-induced status epilepticus

Abstract

Exposure to high levels of a cholinesterase inhibiting organophosphorus (OP) agent often results in seizures that progress to status epilepticus (SE). Survivors of OP-induced SE often display neuropathological consequences the days following SE. In the current study, the temporal profile of neuropathology after SE was investigated in a rat model of diisopropylfluorophosphate (DFP)-induced SE. Adult Sprague-Dawley rats were injected with DFP to induce SE for one hour. Following termination of electrographic SE with urethane (0.8 g/kg, sc), cohorts of rats were euthanized 3, 24 and 48 h later and brain tissue was processed to determine immediate early gene and inflammatory mediator expression as well as blood-brain barrier changes and neurodegeneration. After SE rats displayed a time-dependent upregulation of immediate early genes such as cFos and ΔFosB as well as pro-inflammatory mediators COX-2, IL-1β and IL-6. The profile of positive cFos staining, but not ΔFosB, coincided temporally with heightened brain activity measured by cortical electroencephalography (EEG). Neurodegeneration in limbic brain regions was absent 3 h after SE, but prominent 24 h later and continued to increase 48 h after SE. Serum albumin was detected in the cortex 3 h after SE suggesting early loss of blood brain barrier integrity. However, the blood-brain barrier appeared repaired 48 h after SE. This study demonstrates that following OP-poisoning in rats, immediate early gene expression in the brain precedes neuroinflammation followed by erosion of the blood-brain barrier and neurodegeneration. The study also demonstrates that seizure activity in brain nuclei coincides with cFos expression. Together, these studies give insight into the temporal molecular changes in the brain following organophosphate-induced status epilepticus.

Keywords: COX-2; DFP; EEG; FluoroJade B; Fos; Hippocampus; Immediate early gene; Inflammation; Neurodegeneration; Organophosphate; RT-PCR; Status epilepticus; Urethane; Western blot.