Molecular Brain (Jul 2021)

Kdm3b haploinsufficiency impairs the consolidation of cerebellum-dependent motor memory in mice

  • Yong Gyu Kim,
  • Myeong Seong Bak,
  • Ahbin Kim,
  • Yujin Kim,
  • Yun-Cheol Chae,
  • Ye Lee Kim,
  • Yang-Sook Chun,
  • Joon-Yong An,
  • Sang-Beom Seo,
  • Sang Jeong Kim,
  • Yong-Seok Lee

DOI
https://doi.org/10.1186/s13041-021-00815-5
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 11

Abstract

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Abstract Histone modifications are a key mechanism underlying the epigenetic regulation of gene expression, which is critically involved in the consolidation of multiple forms of memory. However, the roles of histone modifications in cerebellum-dependent motor learning and memory are not well understood. To test whether changes in histone methylation are involved in cerebellar learning, we used heterozygous Kdm3b knockout (Kdm3b +/−) mice, which show reduced lysine 9 on histone 3 (H3K9) demethylase activity. H3K9 di-methylation is significantly increased selectively in the granule cell layer of the cerebellum of Kdm3b +/− mice. In the cerebellum-dependent optokinetic response (OKR) learning, Kdm3b +/− mice show deficits in memory consolidation, whereas they are normal in basal oculomotor performance and OKR acquisition. In addition, RNA-seq analyses revealed that the expression levels of several plasticity-related genes were altered in the mutant cerebellum. Our study suggests that active regulation of histone methylation is critical for the consolidation of cerebellar motor memory.

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