Abstract

The main feedback loop driving circadian rhythm in mice is controlled, in part, by the genes encoding the cryptochromes Cry1 and Cry2. Targeted mutation of both Cry1 and Cry2 delay the early onset of tumor formation in p53-null mutant mice. Furthermore, Ras-transformed p53- and Cry-null mouse skin fibroblasts are more sensitive than p53 mutants to apoptotic cell death initiated by agents that activate either the intrinsic or the extrinsic apoptosis pathways. Here, we investigated the effect of Cry1 and Cry2 mutations on cell death by other genotoxic agents that generate alkylated bases, interstrand crosslinks, DNA-protein crosslinks, and double-strand breaks. Both ultraviolet (UV) and the UV mimetic compound oxaliplatin and the radiomimetic compound doxorubicin promoted apoptosis by upregulating the tumor suppressor p73. However, only the UV and oxaliplatin-induced upregulation of p73 mediated by the transcription factor Egr1, but not the doxorubicin-induced upregulation mediated by the transcription factor E2F1, was enhanced by Cry1/Cry2 double mutation. Accordingly, Egr1 downregulation reduced oxaliplatin-induced apoptosis, whereas E2F1 downregulation reduced doxorubicin-induced apoptosis. Our findings establish distinct roles for cryptochromes in intrinsic apoptosis induced by UV mimetic and radiomimetic agents.

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