To study the involvement of DNA mismatch repair genes in non-small cell lung cancer, matched normal and tumoral DNA samples from 31 patients were analyzed for both LOH and microsatellite instability with 34 markers at or linked to hMLH1 (3p21), hMSH2 (2p16), hMSH3 (5q11-q13), hMSH6 (2p16), hPMS1 (2q32), and hPMS2 (7p22) loci. Chromosomal regions 3p21 and 5q11-q13 were found to be hemizygously deleted in 55% and 42% of the patients, respectively. Sixty five percent of the patients deleted at hMLH1 were also deleted at hMSH3. The shortest regions of overlap for 3p21 and 5q11-q13 deletions delimited by D3S1561/D3S1612 and D5S2107/ D5S624, respectively, were restricted to genetic distances of only 1 cM. Currently, the hMLH1 (3p21) and hMSH3 (5q11-q13) genes are the only known candidates located within these regions. The mutational analysis of hMLH1 and hMSH3 in hemizygously deleted patients led to the detection of 2 new polymorphisms in hMSH3. The consequence of these allelic losses remains unclear, but the lack of inactivating mutation might explain that replication error, the hallmark of mismatch repair genes inactivation in cancer cells, was quasiabsent in tumors. We suggest that hMLH1 and hMSH3 genes could be involved in lung tumorigenesis through dosage effect in cellular functions other than replication error correction. Int. J. Cancer 77:173-180, 1998.
Wiley-Liss, Inc.Lung cancer is the leading cause of death from cancer worldwide with a survival rate as low as 10% despite intensive treatment. About 75% of all cases fall into the broad category of non-small cell lung cancer (NSCLC) which includes squamous cell carcinoma, adenocarcinoma and large cell carcinoma (Carney and de Leij, 1988). Lung carcinomas are characterized by multiple genetic alterations, which include the activation of oncogenes and the loss or inactivation of tumor suppressor genes (reviewed by Gazdar et al., 1994). Mutations in the p53 gene , as well as deletions at chromosome 3p (Chiba et al., 1990) appear to constitute the most common alterations involved in lung carcinogenesis. Frequent allelic losses affecting several chromosomal arms also strongly suggest the involvement of other yet unknown tumor suppressor genes (Petersen et al., 1997).Another type of genetic alteration, revealed as microsatellite instability in tumors (reviewed by Speicher, 1995), was reported in up to 45% of small cell lung cancers (Merlo et al., 1994) and in up to 66% of NSCLC (Pifarre et al., 1997). In hereditary nonpolyposis colon cancer (HNPCC) this type of genetic instability underlies defects in replication errors correction due to inactivation of mismatch repair genes (reviewed by Peltomäki and de la Chapelle, 1997). Does the deficiency in DNA repair contribute to lung carcinogenesis? Like suppressor genes, inactivation of mismatch repair genes appears to occur in two steps. The first mutational event is either somatic (sporadic cancer) or germinal (hereditary cancer) followed by somatic mutations of the second allele. This second step may be revealed as LOH,...
