Polygenetic susceptibility and resistance to 4-nitroquinoline 1-oxide-induced tongue carcinomas in the rat

Abstract

Oral administration of 4-nitroquinoline 1-oxide (4NQO) to rats induced a high incidence of tongue carcinomas (TCs). The inbred Dark-Agouti (DA) strain of rats showed much higher susceptibility to 4NQO-induced TCs than the Wistar-Furth (WF) strain. Our previous study on crosses between the two strains postulated a semidominant susceptibility gene in DA and a semidominant resistance gene in WF rats. This hypothesis was confirmed by the genetic analysis of the back-crosses to either parent with PCR-based microsatellite assay. Using the number of TCS with >5 mm diameter as a quantitative parameter, we mapped a quantitative trait locus Stc1 (Susceptibility to TC) favouring TC development near the locus D19Mit9 on Chr. 19 with a peak LOD score of 6.08. Two other regions in Chr. 3 and Chr. 14 showed weak linkage for susceptibility, but were not statistically significant. On the other hand, another quantitative trait locus Rtc1 (Resistance to TC) providing resistance to TCs was mapped on Chr. 1 between the loci of D1Mit1 and D1Mit3 with a peak LOD score of 3.30. Quantitative parameters such as the number of tumours in the tongue or upper alimentary tract, the frequency of larger tumours and their maximum size were closely correlated and principally determined by Stc1 and Rtc1. Therefore the susceptibility to 4NQO-induced TCs in crosses between DA and WF is explained by the combinations of genotypes at these two loci. Possible candidate genes for Stc1 and Rtc1 are discussed.