Abstract

Cell extract from the HT29 human colon carcinoma cell line (lacking mutator phenotype) was used to study the ATP-dependent G:T mismatch repair. We found that when a 45-bp (model) DNA with a single CpG/TpG mispair was incubated with the cell extract and ATP, it was incised immediately 5' and 3' to the mismatched T, and we noted that the actual 5'- and 3'-labeled fragments were similar to the cleaved products of thymine DNA glycosylase (TDG). This TDG-like cleavage product was enhanced (5-fold) with stimulation of several novel fragments, as inferred from the effect on incision at CpG/TpG site of the addition of G:U competitor DNA and ATP to the HT29 extract. The novel fragments were compatible with a strand incision on both sides of the mismatch (the third phosphodiester bond 5' and the second phosphodiester bond 3' to the mismatched T) and an incision 3' to the mismatched T, respectively. This suggests that while the ATP-dependent (TDG-like) incision activity, contrary to expectation, shows a lack of substrate competition, its catalytic property is likely modified by an interaction with G:U mispair. These multiple ATP-dependent incision events were not detected when extracts of the mismatch repair (MMR) defective HCT15 or HCT116 cell line were augmented with ATP and G:U. We postulate that these multiple ATP-dependent incision events possibly require the same MMR factors, and together they constitute a modified single ATP-dependent G:T incision activity. This activity toward the CpG/TpG was competitively inhibited by a 45-bp DNA with an ApG/TpT mispair; incision at a single site 5' to the latter mismatch compares with one of the multiple sites incised 5' to the former mismatch. These results suggest that one of several mismatch-incision factors is required by the human ATP-dependent G:T incision activity, in addition to MMR factors and ATP.

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