Non‐apoptotic function of caspases in a cellular model of hydrogen peroxide‐associated colitis

Oxidative stress, caused by reactive oxygen species (ROS), is a major contributor to inflammatory bowel disease (IBD)‐associated neoplasia. We mimicked ROS exposure of the epithelium in IBD using non‐tumour human colonic epithelial cells (HCEC) and hydrogen peroxide (H₂O₂). A population of HCEC survived H₂O₂‐induced oxidative stress via JNK‐dependent cell cycle arrests. Caspases, p21^WAF1 and γ‐H2AX were identified as JNK‐regulated proteins. Up‐regulation of caspases was linked to cell survival and not, as expected, to apoptosis. Inhibition using the pan‐caspase inhibitor Z‐VAD‐FMK caused up‐regulation of γ‐H2AX, a DNA‐damage sensor, indicating its negative regulation via caspases. Cell cycle analysis revealed an accumulation of HCEC in the G₁‐phase as first response to oxidative stress and increased S‐phase population and then apoptosis as second response following caspase inhibition. Thus, caspases execute a non‐apoptotic function by promoting cells through G₁‐ and S‐phase by overriding the G₁/S‐ and intra‐S checkpoints despite DNA‐damage. This led to the accumulation of cells in the G₂/M‐phase and decreased apoptosis. Caspases mediate survival of oxidatively damaged HCEC via γ‐H2AX suppression, although its direct proteolytic inactivation was excluded. Conversely, we found that oxidative stress led to caspase‐dependent proteolytic degradation of the DNA‐damage checkpoint protein ATM that is upstream of γ‐H2AX. As a consequence, undetected DNA‐damage and increased proliferation were found in repeatedly H₂O₂‐exposed HCEC. Such features have been associated with neoplastic transformation and appear here to be mediated by a non‐apoptotic function of caspases. Overexpression of upstream p‐JNK in active ulcerative colitis also suggests a potential importance of this pathway in vivo.