Abstract

Nucleotide excision repair (NER), cell cycle regulation and apoptosis are major defence mechanisms against the carcinogenic effects of UVB radiation. NER eliminates UVB-induced DNA photolesions via two subpathways: global genome repair (GGR) and transcription-coupled repair (TCR). In a previous study, we found UVB-induced accumulation of tetraploid (4N) keratinocytes in the epidermis of Xpc −/− mice (no GGR), but not in Xpa −/− (no TCR and no GGR) or in wild-type (WT) mice. We inferred that this arrest in Xpc −/− mice is caused by erroneous replication past photolesions, leading to ‘compound lesions’ known to be recognised by mismatch repair (MMR). MMR-induced futile cycles of breakage and resynthesis at sites of compound lesions may then sustain a cell cycle arrest. The present experiments with Xpc −/− Msh2 −/− mice and derived keratinocytes show that the MMR protein Msh2 indeed plays a role in the generation of the UVB-induced arrested cells: a Msh2-deficiency lowered significantly the percentage of arrested cells in vivo (40–50%) and in vitro (30–40%). Analysis of calyculin A (CA)-induced premature chromosome condensation (PCC) of cultured Xpc −/− keratinocytes showed that the delayed arrest occurred in late S phase rather than in G 2-phase. Taken together, the results indicate that in mouse epidermis and cultured keratinocytes, the MMR protein Msh2 plays a role in the UVB-induced S-phase arrest. This indicates that MMR plays a role in the UVB-induced S-phase arrest. Alternatively, Msh2 may have a more direct signalling function.

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