Expression of the p16^Ink4a tumor suppressor gene, a sensor of oncogenic stress, is up-regulated by a variety of potentially oncogenic stimuli in cultured primary cells. However, because p16^Ink4a expression is also induced by tissue culture stress, physiological mechanisms regulating p16^Ink4a expression remain unclear. To eliminate any potential problems arising from tissue culture–imposed stress, we used bioluminescence imaging for noninvasive and real-time analysis of p16^Ink4a expression under various physiological conditions in living mice. In this study, we show that oncogenic insults such as ras activation provoke epigenetic derepression of p16^Ink4a expression through reduction of DNMT1 (DNA methyl transferase 1) levels as a DNA damage response in vivo. This pathway is accelerated in the absence of p53, indicating that p53 normally holds the p16^Ink4a response in check. These results unveil a backup tumor suppressor role for p16^Ink4a in the event of p53 inactivation, expanding our understanding of how p16^Ink4a expression is regulated in vivo.