Royal College of Surgeons in Ireland
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Impact of JQ1 treatment on seizures, hippocampal gene expression, and gliosis in a mouse model of temporal lobe epilepsy

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journal contribution
posted on 2024-11-22, 17:59 authored by Aileen Harnett, Justine Mathoux, Marc-Michel Wilson, Mona HeilandMona Heiland, Omar MamadOmar Mamad, Sujithra SrinivasSujithra Srinivas, Albert Sanfeliu Bosch, Amaya Sanz RodriguezAmaya Sanz Rodriguez, Kelvin E How Lau, Norman DelantyNorman Delanty, Jane CryanJane Cryan, Francesca BrettFrancesca Brett, Michael A Farrell, Donncha O'BrienDonncha O'Brien, David HenshallDavid Henshall, Gary Brennan

Epilepsy is a neurological disease characterised by recurrent seizures with complex aetiology. Temporal lobe epilepsy, the most common form in adults, can be acquired following brain insults including trauma, stroke, infection or sustained status epilepticus. The mechanisms that give rise to the formation and maintenance of hyperexcitable networks following acquired insults remain unknown, yet an extensive body of literature points towards persistent gene and epigenomic dysregulation as a potential mediator of this dysfunction. While much is known about the function of specific classes of epigenetic regulators (writers and erasers) in epilepsy, much less is known about the enzymes, which read the epigenome and modulate gene expression accordingly. Here, we explore the potential role for the epigenetic reader bromodomain and extra-terminal domain (BET) proteins in epilepsy. Using the intra-amygdala kainic acid model of temporal lobe epilepsy, we initially identified widespread dysregulation of important epigenetic regulators including EZH2 and REST as well as altered BRD4 expression in chronically epileptic mice. BRD4 activity was also notably affected by epilepsy-provoking insults as seen by elevated binding to and transcriptional regulation of the immediate early gene Fos. Despite influencing early aspects of epileptogenesis, blocking BET protein activity with JQ1 had no overt effects on epilepsy development in mice but did alter glial reactivity and influence gene expression patterns, promoting various neurotransmitter signalling mechanisms and inflammatory pathways in the hippocampus. Together, these results confirm that epigenetic reader activity is affected by epilepsy-provoking brain insults and that BET activity may exert cell-specific actions on inflammation in epilepsy. 

Funding

Science Foundation Ireland, Grant/Award Numbers: 21/RC/10294, SIRG/18/5646

HORIZON EUROPE Marie-Curie Actions, Grant/Award Number: EpimiRgen

European Regional Development Fund

FutureNeuro industry partners

RCSI seed funding

History

Data Availability Statement

Information on animals and patient samples used in this study, primer sets, reagents and so on, are all provided in the article. EEG, RNA-seq and all other datasets are available upon request from the corresponding author.

Comments

The original article is available at https://onlinelibrary.wiley.com/

Published Citation

Harnett A. et al. Impact of JQ1 treatment on seizures, hippocampal gene expression, and gliosis in a mouse model of temporal lobe epilepsy. Eur J Neurosci. 2024;60(6):5266-5283.

Publication Date

16 August 2024

PubMed ID

39149798

Department/Unit

  • Beaumont Hospital
  • FutureNeuro Centre
  • Physiology and Medical Physics
  • School of Pharmacy and Biomolecular Sciences

Publisher

Wiley-Blackwell

Version

  • Published Version (Version of Record)