HDAC6 has been reported as a deacetylase of p53 at multiple lysine residues, associated with the canonical functions of p53, such as apoptosis and tumor suppression. We have previously reported that p53 acetylation at the lysine 320 site accumulates due to the genetic ablation of HDAC6 in mice liver. However, the biological processes affected by K320 acetylation of p53 are yet to be elucidated. In this study, we demonstrate that K320 acetylation of p53 is regulated by HDAC6 deacetylase activity. HDAC6 knockout mouse brains exhibit a significant accumulation of K320 acetylated p53 compared to other tissues. The level of K320 acetylation of p53 inversely correlates with the level of BNIP3, a direct target of p53 and essential for mitophagy. Notably, overexpressing the deacetylation mimic K320R mutant p53 restored BNIP3 expression in HDAC6 knockout MEFs. Furthermore, we observed that neurons are particularly susceptible to the genetic ablation of HDAC6, impacting BNIP3 expression, which inversely correlates with the accumulation of abnormal mitochondria characterized by swollen cristae. Our findings suggest that HDAC6 plays a crucial role in maintaining BNIP3 expression by deacetylating p53 at the K320 site, which is linked to the structural integrity of mitochondria.
Keywords: Acetylation; BNIP3; HDAC6; Mitochondria; p53.
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