Charge modification at multiple C-terminal lysine residues regulates p53 oligomerization and its nucleus-cytoplasm trafficking.

The basal level of the tumor suppressor p53 is regulated by MDM2-mediated ubiquitination at specific lysines, which leads to p53 nuclear export and degradation. Upon p53 activation, however, these lysines become acetylated by p300/CREB-binding protein. Here we have reported an unexpected finding that p300-mediated acetylation also regulates p53 subcellular localization and can promote cytoplasmic localization of p53. This activity is independent of MDM2 but requires a p53 nuclear export signal and acetylation of multiple lysines by p300. Mechanistically, we showed that conversion of a minimal four of these lysines to alanines but not arginines mimics p300-mediated p53 nuclear export, and these lysine-neutralizing mutations effectively prevent p53 tetramerization, thus exposing the oligomerization-regulated nuclear export signal. Our study suggested a threshold mechanism whereby the degree of acetylation regulates p53 nucleus-cytoplasm trafficking by neutralizing a lysine-dependent charge patch, which in turn, controls oligomerization-dependent p53 nuclear export.