PLoS ONE (Jan 2009)

Loss of the putative catalytic domain of HDAC4 leads to reduced thermal nociception and seizures while allowing normal bone development.

  • Indrani Rajan,
  • Katerina V Savelieva,
  • Gui-Lan Ye,
  • Ching-Yun Wang,
  • Murtaza M Malbari,
  • Carl Friddle,
  • Thomas H Lanthorn,
  • Wandong Zhang

DOI
https://doi.org/10.1371/journal.pone.0006612
Journal volume & issue
Vol. 4, no. 8
p. e6612

Abstract

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Histone deacetylase 4 (HDAC4) has been associated with muscle & bone development [1]-[6]. N-terminal MEF2 and RUNX2 binding domains of HDAC4 have been shown to mediate these effects in vitro. A complete gene knockout has been reported to result in premature ossification and associated defects resulting in postnatal lethality [6]. We report a viral insertion mutation that deletes the putative deacetylase domain, while preserving the N-terminal portion of the protein. Western blot and immuno-precipitation analysis confirm expression of truncated HDAC4 containing N-terminal amino acids 1-747. These mutant mice are viable, living to at least one year of age with no gross defects in muscle or bone. At 2-4 months of age no behavioral or physiological abnormalities were detected except for an increased latency to respond to a thermal nociceptive stimulus. As the mutant mice aged past 5 months, convulsions appeared, often elicited by handling. Our findings confirm the sufficiency of the N-terminal domain for muscle and bone development, while revealing other roles of HDAC4.