Chang, Bao-Luen; Walker, Matthew C; Kullmann, Dimitri M; Schorge, Stephanie; (2024) Deciphering temporal gene expression dynamics during epilepsy development using a rat model of focal neocortical epilepsy. Epilepsia 10.1111/epi.18169. (In press).

Text Chang-Main Document & Fig-Epilepsia.pdf - Accepted Version Access restricted to UCL open access staff until 12 November 2025. Download (1MB)

Abstract

OBJECTIVE: Epilepsy involves significant changes in neural cells during epileptogenesis. Although the molecular mechanism of epileptogenesis remains obscure, changes in gene regulation play a crucial role in the evolution of epilepsy. This study aimed to compare changes in a subset of specific genes during epilepsy development, focusing on the period after the first spontaneous seizure, to identify critical time windows for targeting different regulators. METHODS: Using a rat model of acquired focal neocortical epilepsy induced by tetanus toxin, we characterized gene expression at acute, subacute, and chronic stages (48-72 h, 2 weeks, and 30 days after first spontaneous seizure, respectively), focusing on genes' potential contribution to epilepsy progression. RESULTS: We observed dynamic changes in the expression of these genes throughout the period after the first spontaneous seizure. Astrocytic reactions primarily occur early, before epilepsy is well established. Changes in Mtor (mammalian target of rapamycin) and Rest (repressor element 1 silencing transcription factor) signaling pathways are highly dynamic and correlated with the progression of epilepsy development. Ccl2 (chemokine C-C-motif ligand) is upregulated at the chronic stage, indicating activation of the neuroinflammatory pathway. Finally, Gabra5 (γ-aminobutyric acidergic signaling) is downregulated at the late stage after epilepsy is established. Surprisingly, changes in the expression of specific genes are linked to the time since the first seizure, rather than seizure frequency or duration. SIGNIFICANCE: These results suggest that the regulation of specific genes is essentially stage-dependent during the development of epilepsy, highlighting the importance of targeting specific genes at appropriate stages of epilepsy development.

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