Double labeling of interphase and metaphase chromosomes by 5-chlorodeoxyuridine (CIdU) and 5-iododeoxyuridine (IdU) has been used in studies of the dynamics of DNA replication. Here, we have used this approach and confocal microscopy to analyze sites of DNA repair synthesis during nucleotide excision repair (NER) in quiescent human fibroblasts. Surprisingly, we have found that when both precursors are added at the same time to UV-irradiated cells they label different sites in the nucleus. In contrast, even very short periods of simultaneous IdU + CIdU labeling of S-phase cells produced mostly overlapped IdU and CIdU replication foci. The differential labeling of repair sites might be due to compartmentalization of I-dUTP and CI-dUTP pools, or to differential utilization of these thymidine analogs by DNA polymerases delta and epsilon (Poldelta and Polepsilon). To explore the latter possibility we used purified mammalian polymerases to find that I-dUTP is efficiently utilized by both Poldelta and Polepsilon. However, we found that the UV-induced incorporation of IdU was more strongly stimulated by treatment of cells with hydroxyurea than was incorporation of CIdU. This indicates that there may be distinct IdU and CIdU-derived nucleotide pools differentially affected by inhibition of the ribonucleotide reductase pathway of dNTP synthesis and that is consistent with the view that differential incorporation of IdU and CIdU during NER may be caused by compartmentalization of IdU- and CIdU-derived nucleotide pools.

• 出版日期2005-3-2