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DNA Dynamics and Chromosome Structure

Inactivation of DNA Mismatch Repair by Increased Expression of Yeast MLH1

, , , , , , & show all
Pages 940-951 | Received 19 Jul 2000, Accepted 27 Oct 2000, Published online: 27 Mar 2023
 

Abstract

Inactivation of DNA mismatch repair by mutation or by transcriptional silencing of the MLH1 gene results in genome instability and cancer predisposition. We recently found (P. V. Shcherbakova and T. A. Kunkel, Mol. Cell. Biol. 19:3177–3183, 1999) that an elevated spontaneous mutation rate can also result from increased expression of yeast MLH1. Here we investigate the mechanism of this mutator effect. Hybridization of poly(A)+ mRNA to DNA microarrays containing 96.4% of yeast open reading frames revealed that MLH1overexpression did not induce changes in expression of other genes involved in DNA replication or repair. MLH1overexpression strongly enhanced spontaneous mutagenesis in yeast strains with defects in the 3′→5′ exonuclease activity of replicative DNA polymerases δ and ɛ but did not enhance the mutation rate in strains with deletions of MSH2, MLH1, orPMS1. This suggests that overexpression ofMLH1 inactivates mismatch repair of replication errors. Overexpression of the PMS1 gene alone caused a moderate increase in the mutation rate and strongly suppressed the mutator effect caused by MLH1 overexpression. The mutator effect was also reduced by a missense mutation in the MLH1 gene that disrupted Mlh1p-Pms1p interaction. Analytical ultracentrifugation experiments showed that purified Mlh1p forms a homodimer in solution, albeit with a K d of 3.14 μM, 36-fold higher than that for Mlh1p-Pms1p heterodimerization. These observations suggest that the mismatch repair defect in cells overexpressingMLH1 results from an imbalance in the levels of Mlh1p and Pms1p and that this imbalance might lead to formation of nonfunctional mismatch repair complexes containing Mlh1p homodimers.

ACKNOWLEDGMENTS

We thank Youri Pavlov for providing yeast strains, Louise Prakash for pMMR84, Michelle Feldman for assistance in plasmid construction, Kate Johnson and Pat Hurban for optimization of the yeast ORFs, Lee Bennett for help in the statistical analysis of the microarray hybridizations, Wilfried Kramer for helpful discussions, and Youri Pavlov and Leroy Worth for critically reading the manuscript.

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