Attenuation of the p53 response to DNA damage by high cell density

The p53 tumor suppressor is critical for preventing cancer progression. Numerous observations suggest that p53 function can be modulated by the cells' microenvironment. We addressed specifically the impact of cell crowding on the induction of p53 by DNA damage. We report that cell crowding attenuates markedly p53 upregulation, transcriptional activation and subsequent p53- dependent apoptosis following exposure to genotoxic stress. The p53 protein remains short- lived in confluent cultures regardless of the extent of DNA damage, even though it undergoes efficient phosphorylation on the mouse equivalent of human p53 serine 15. This inhibitory effect of cell crowding is not a secondary consequence of density-dependent cell cycle arrest ( contact inhibition). Microscopic examination indicates that dense cultures display prominent cadherin- mediated cell - cell junctions, and only poor cell - matrix focal adhesions, whereas sparse cells possess conspicuous matrix adhesions and essentially no cell - cell contacts. High- density cell culture might recapitulate the microenvironment of cells in a living organism, where the response of p53 to DNA damage is reported to be low in some organs and ages. The impact of cell density on p53 activation may have important bearings on the involvement of p53 in tumor suppression and the cellular response to anticancer therapy.