Epilepsia Open (Dec 2023)

Diurnal circadian clock gene expression is altered in models of genetic and acquired epilepsy

  • Glenn R. Yamakawa,
  • Meshwa Patel,
  • Runxuan Lin,
  • Terence J. O'Brien,
  • Richelle Mychasiuk,
  • Pablo M. Casillas‐Espinosa

DOI
https://doi.org/10.1002/epi4.12841
Journal volume & issue
Vol. 8, no. 4
pp. 1523 – 1531

Abstract

Read online

Abstract Objectives Growing evidence demonstrates a relationship between epilepsy and the circadian system. However, relatively little is known about circadian function in disease states, such as epilepsy. This study aimed to characterize brain and peripheral core circadian clock gene expression in rat models of genetic and acquired epilepsy. Methods For the Genetic Absence Epilepsy Rats from Strasbourg (GAERS) study, we used 40 GAERS and 40 non‐epileptic control (NEC) rats. For the kainic acid status epilepticus (KASE) study, we used 40 KASE and 40 sham rats. Rats were housed in a 7 am:7 pm light–dark cycle. Hypothalamus, hippocampus, liver, and small intestine samples were collected every 3 h throughout the light period. We then assessed core diurnal clock gene expression of per1, cry1, clock, and bmal1. Results In the GAERS rats, all tissues exhibited significant changes in clock gene expression (P 0.05) compared with shams. Significance These results indicate marked diurnal disruption to core circadian clock gene expression in rats with both generalized and focal chronic epilepsy. This could contribute to epileptic symptomology and implicate the circadian system as a viable target for future treatments.

Keywords