A novel mechanism for preventing mutations caused by oxidation of guanine nucleotides

MutT-related proteins, including the Escherichia coli MutT and human MutT homologue 1 (MTH1) proteins, degrade 8-oxo7,8- dihydrodeoxyguanosine triphosphate (8-oxo-dGTP) to a monophosphate, thereby preventing mutations caused by the misincorporation of 8- oxoguanine into DNA. Here, we report that human cells have another mechanism for cleaning up the nucleotide pool to ensure accurate DNA replication. The human Nudix type 5 (NUDT5) protein hydrolyses 8-oxo-dGDP to monophosphate with a K-m of 0.77 muM, a value considerably lower than that for ADP sugars, which were originally identified as being substrates of NUDT5. NUDT5 hydrolyses 8-oxo-dGTP only at very low levels, but is able to substitute for MutT when it is defective. When NUDT5 is expressed in E. coli mutT(-) cells, the increased frequency of spontaneous mutations is decreased to normal levels. Considering the enzymatic parameters of MTH1 and NUDT5 for oxidized guanine nucleotides, NUDT5 might have a much greater role than MTH1 in preventing the occurrence of mutations that are caused by the misincorporation of 8- oxoguanine in human cells.