Cell Reports (Jul 2017)

ΔFosB Regulates Gene Expression and Cognitive Dysfunction in a Mouse Model of Alzheimer’s Disease

  • Brian F. Corbett,
  • Jason C. You,
  • Xiaohong Zhang,
  • Mark S. Pyfer,
  • Umberto Tosi,
  • Daniel M. Iascone,
  • Iraklis Petrof,
  • Anupam Hazra,
  • Chia-Hsuan Fu,
  • Gabriel S. Stephens,
  • Annie A. Ashok,
  • Suzan Aschmies,
  • Lijuan Zhao,
  • Eric J. Nestler,
  • Jeannie Chin

DOI
https://doi.org/10.1016/j.celrep.2017.06.040
Journal volume & issue
Vol. 20, no. 2
pp. 344 – 355

Abstract

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Alzheimer’s disease (AD) is characterized by cognitive decline and 5- to 10-fold increased seizure incidence. How seizures contribute to cognitive decline in AD or other disorders is unclear. We show that spontaneous seizures increase expression of ΔFosB, a highly stable Fos-family transcription factor, in the hippocampus of an AD mouse model. ΔFosB suppressed expression of the immediate early gene c-Fos, which is critical for plasticity and cognition, by binding its promoter and triggering histone deacetylation. Acute histone deacetylase (HDAC) inhibition or inhibition of ΔFosB activity restored c-Fos induction and improved cognition in AD mice. Administration of seizure-inducing agents to nontransgenic mice also resulted in ΔFosB-mediated suppression of c-Fos, suggesting that this mechanism is not confined to AD mice. These results explain observations that c-Fos expression increases after acute neuronal activity but decreases with chronic activity. Moreover, these results indicate a general mechanism by which seizures contribute to persistent cognitive deficits, even during seizure-free periods.

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