Cell Reports (Mar 2016)

Dual and Opposing Roles of MicroRNA-124 in Epilepsy Are Mediated through Inflammatory and NRSF-Dependent Gene Networks

  • Gary P. Brennan,
  • Deblina Dey,
  • Yuncai Chen,
  • Katelin P. Patterson,
  • Eric J. Magnetta,
  • Alicia M. Hall,
  • Celine M. Dube,
  • Yu-Tang Mei,
  • Tallie Z. Baram

DOI
https://doi.org/10.1016/j.celrep.2016.02.042
Journal volume & issue
Vol. 14, no. 10
pp. 2402 – 2412

Abstract

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Insult-provoked transformation of neuronal networks into epileptic ones involves multiple mechanisms. Intervention studies have identified both dysregulated inflammatory pathways and NRSF-mediated repression of crucial neuronal genes as contributors to epileptogenesis. However, it remains unclear how epilepsy-provoking insults (e.g., prolonged seizures) induce both inflammation and NRSF and whether common mechanisms exist. We examined miR-124 as a candidate dual regulator of NRSF and inflammatory pathways. Status epilepticus (SE) led to reduced miR-124 expression via SIRT1—and, in turn, miR-124 repression—via C/EBPα upregulated NRSF. We tested whether augmenting miR-124 after SE would abort epileptogenesis by preventing inflammation and NRSF upregulation. SE-sustaining animals developed epilepsy, but supplementing miR-124 did not modify epileptogenesis. Examining this result further, we found that synthetic miR-124 not only effectively blocked NRSF upregulation and rescued NRSF target genes, but also augmented microglia activation and inflammatory cytokines. Thus, miR-124 attenuates epileptogenesis via NRSF while promoting epilepsy via inflammation.