Repair of O6-methylguanine is not affected by thymine base pairing and the presence of MMR proteins

Methylation at the O-6-position of guanine (O-6-MeG) by alkylating agents is efficiently removed by O-6-Methylguanine-DNA methyltransferase (MGMT), preventing from cytotoxic, mutagenic, clastogenic and carcinogenic effects Of O-6 O-6-MeG-inducing agents. If O-6-MeG is not removed from DNA prior to replication, thymine will be incorporated instead of cytosine opposite the O-6-MeG lesion. This mismatch is recognized and processed by mismatch repair (MMR) proteins which are known to be involved in triggering the cytotoxic and genotoxic response of cells upon methylation. In this work we addressed three open questions. (1) Is MGMT able to repair O-6-MeG mispaired with thymine (O-6-MeG/T)? (2) Do MMR proteins interfere with the repair of O-6-MeG/T by MGMT? (3) Does MGMT show a protective effect if it is expressed after replication of -MeG/T mismatches are as DNA containing O-6-MeG? Using an in vitro assay we show that oligonucleotides containing O-6 efficient as oligonucleotides containing O-6-MeG/C in competing for MGMT repair activity, indicating that O-6-MeG mispaired with thymine is still subject to repair by MGMT. The addition of MMR proteins from nuclear extracts, or of recombinant MutS alpha, to the in vitro repair assay did not affect the repair of O-6-MeG/T lesions by MGMT. This indicates that the presence of MutS alpha still allows access of MGMT to O-6-MeG/T lesions. To elucidate the protective effect of MGMT in the first and second replication cycle after N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) treatment, MGMT transfected CHO cells were synchronized and MGMT was inactivated by pulse-treatment with O-6-benzylguanine (O-6-BG). Thereafter, the recovered cells were treated with MNNG and subjected to clonogenic survival assays. Cells which expressed MGMT in the first and second cell cycle were more resistant than cells which expressed MGMT only in the second (post-treatment) cell cycle. Cells which did not express MGMT in both cell cycles were most sensitive. This indicates that repair of O-6-MeG can occur both in the first and second cell cycle after alkylation protecting cells from the killing effect of the lesion. (C) 2001 Elsevier Science B.V. Ail rights reserved.