Abstract
As a central regulator for cell cycle arrest, apoptosis, and cellular senescence, p53 requires multiple layers of regulatory control to ensure correct temporal and spatial functions. It is well accepted that Mdm2-mediated ubiquitination plays a crucial role in p53 regulation. In addition to proteasome-mediated degradation, ubiquitination of p53 by Mdm2 acts a key signal for its nuclear export. Nuclear export has previously been thought to require the disassociation of the p53 tetramer and exposure of the intrinsic nuclear export signal. To elucidate the molecular mechanism of degradation-independent repression on p53 by Mdm2, we have developed a two-step approach to purify ubiquitinated forms of p53 induced by Mdm2 from human cells. Surprisingly, however, we found that ubiquitination has no effect on the tetramerization/oligomerization of p53, arguing against this seemingly well accepted model. Moreover, nuclear export of p53 alone is not sufficient to completely abolish p53 activity. Ubiquitination-mediated repression of p53 by Mdm2 acts at least, in part, through inhibiting the sequence-specific DNA binding activity. Thus, our results have important implications regarding the mechanisms by which Mdm2 acts on p53.
Highlights
The ubiquitin-proteasome pathway consists of E1-activating enzymes, E2-conjugating enzymes, and E3 ubiquitin ligases [7]
It has been reported that the nuclear export signal, a region located within the tetramerization domain of p53, needs to be “unmasked” in order for efficient nuclear export to occur [16]
It has been proposed that the nuclear export signal, a region located within the tetramerization domain of p53, needs to be unmasked for efficient nuclear export to occur [16, 32]
Summary
The ubiquitin-proteasome pathway consists of E1-activating enzymes, E2-conjugating enzymes, and E3 ubiquitin ligases [7]. H1299 cells showed a significant cytoplasmic distribution when protein that lacks the tetramerization domain was included as a compared with wild type p53, a proportion was negative control and showed no slower migrating species on retained within the nucleus, similar to that previously reported Western blot (Fig. 4A, lanes 10 –12).
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