Given our previous finding that certain tumor-suppressing functions of p53 are exerted by the p53/p21 complex, rather than p53 alone, cells may have a system to regulate the p53/p21 interaction. As p53 binds to p21 via its C-terminal domain, which contains acetylable lysine residues, we investigated whether the C-terminal acetylation of p53 influences the p53/p21 interaction. Indeed, the p53/p21 interaction was reduced when various types of cells (HCT116 colon cancer, A549 lung cancer, and MCF7 breast cancer cells) were treated with MS-275, an inhibitor of SIRT1 (a p53 deacetylase), or with SIRT1-targeting small interfering RNAs. These treatments also increased the acetylation levels of the five lysine residues (K370, K372, K373, K381, K382) in the C-terminal domain of p53. The p53/p21 interaction was also reduced when these lysine residues were substituted with glutamine (an acetylation memetic), but not arginine (an unacetylable lysine analog). While the inhibitory effect of the lysine-to-glutamine substitution was evident upon the substitution of all the five lysine residues, the substitution of only two (K381, K382) or three residues (K370, K372, K373) was less effective. Consistently, the five substitutions reduced the ability of p53 to regulate cell invasion and death by liberating Bax from Bcl-w. Overall, our data suggest that the acetylation, especially the hyperacetylation, of the p53 C-terminal domain suppresses the p53/p21-complex-dependent functions of p53 by inhibiting the p53/p21 interaction. We propose that cellular components involved in the acetylation or deacetylation of the p53 C-terminus are critical regulators of the formation of p53/p21 complex.
Keywords: Acetylation; Deacetylation; p21; p53.
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