Complementation of mismatch repair gene defects by chromosome transfer

The study of the multiple functions of mismatch repair genes in humans is being facilitated by the use of human tumor cell lines carrying defined MMR gene mutations. Such cell lines have elevated spontaneous mutation rates and may accumulate mutations in other genes, some of which could be causally related to the phenotypes of these cells. One approach to establish a cause-effect relationship between a MMR gene defect and a phenotype is to determine if that phenotype is reversed when a normal chromosome carrying a wild-type MMR gene is introduced by microcell fusion. This approach has the advantage of presenting the gene in its natural chromosomal environment with normal regulatory controls and at a reasonable dosage. The approach also limits candidate genes to only those encoded by the introduced chromosome and not elsewhere in the genome. Here we review studies demonstrating that hMSH2, hMSH3, hMSH6 and hMLH1 gene defects can each be complemented by transferring human chromosome 2, 5, 2 or 3, respectively. These transfers restore MMR activity, sensitivity to killing by MNNG, stability to microsatellite sequences and low spontaneous HPRT gene mutation rates.