Les carburants de substitution

Available at INIST (FR), Document Supply Service, under shelf-number : RP 185 (3022) / INIST-CNRS - Institut de l'Information Scientifique et TechniqueSIGLEFRFranc

Dissemination

This document presents the results of work package WP1 State of the art update where the more recent achievements in the scientific and technological domains addressed by the SATIN project are described. In particular, the domains addressed are the following: haptic technology, soun

Chromosome mapping of multiple loci affecting the genetic predisposition to rat liver carcinogenesis

Previous studies on (BNxF344)F1 (BFF1) rat model of genetic predisposition to hepatocarcinogenesisled to the identification, in BFF1xF344 backcross progeny, of two hepatocarcinogenesis susceptibility (Hcs) and three resistance (Hcr) loci affecting the progression of neoplastic liver nodules. To evaluate the presence of other hepatocarcinogenesis-related loci in the BFF1 genome, nodule induction by resistant hepatocyte model in 116 male BFF2 rats 32 weeks after initiation with diethylnitrosamine was subjected to quantitative trait loci analysis. The rats were typed with 179 genetic markers, and linkage analysis identified three loci on chromosomes 1, 16, and 6, in significant linkage with nodule mean volume (V), volume fraction, and number, respectively, and two loci on chromosomes 4 and 8 in suggestive linkage with V. These loci were differently positioned with respect to Hcs and Hcr loci mapped previously in backcross rats. On the basis of phenotypic and allele distribution patterns of BFF2 rats, loci on chromosomes 1 and 16 were identified as Hcs3 and Hcs4, and loci on chromosomes 4, 8, and 6 as Hcr4, Hcr5, and Hcr6. Additive interactions occurred between Hcs3 and Hcs4, and Hcr4 and a locus on chromosome 3 with less than suggestive linkage with V. All of the loci were in chromosomal regions syntenic to mouse and/or human chromosomal segments showing allelic gain or loss in hepatocellular carcinomas. These data indicate that inheritance of predisposition to rat liver tumor is characterized by the interplay of several genetic factors and suggest some possible mechanisms of polygenic control of human liver cancer

Phenotypic reversion of rat neoplastic liver nodules is under genetic control

Low DNA synthesis and high redifferentiation (remodeling) characterize neoplastic nodules induced by chemical carcinogens in hybrid BFF1 rats, generated by crossing the susceptible F344 and resistant BN strains. We performed whole-genome scanning of BFF2 rats to identify loci controlling remodeling of nodules induced, 32 weeks after initiation with diethylnitrosamine, by the RH protocol. Remodeling nodules were identified as areas lacking uniformity of GST-P immunostaining and with irregular margins. Two loci in suggestive linkage with the percentage of remodeling nodules were identified on chromosomes 7 and 1 (LOD scores 3.85 and 2.9 at D7Rat25 and D1Mgh14). Significant dosage-negative effect of the B allele on remodeling and additive interaction between these loci were found. Significant epistatic interactions, showing a recessive, remodeling-enhancing effect of B alleles, occurred between D1Mit3 and D11Rat11 (corrected p = 0.0013) and between D6Rat14 and D8Rat46 (corrected p = 0.028). These data show that remodeling of neoplastic nodules during rat hepatocarcinogenesis is under genetic control. Loci affecting remodeling map to chromosomal regions syntenic to chromosomal segments of human HCC showing structural abnormalities

Polygenic control of hepatocarcinogenesis in Copenhagen × F344 rats

Cop and CFF1 rats exhibit resistance to hepatocarcinogenesis, associated with high rates of remodeling of neoplastic lesions. We have mapped hepatocarcinogenesis susceptibility, resistance and remodeling loci affecting the number, volume and volume fraction of neoplastic nodules induced by the resistant hepatocyte model in male CFF2 rats. Three loci in significant linkage with the number or volume of nonremodeling lesions were identified on chromosomes 1, 4 and 18. Suggestive linkage with number or volume fraction of total, nonremodeling or remodeling lesions was found for 7 loci on chromosomes 1, 2, 13, 14 and 15. All of these loci showed significant allele-specific effects on the phenotypic traits. We also detected by analysis of variance 19 2-way interactions inducing phenotypic effects not predictable on the basis of the sum of separate effects. These novel epistatic loci were in significant linkage with the number and/or volume of total, nonremodeling or remodeling nodules. These data indicate that susceptibility to hepatocarcinogenesis in Cop rats is controlled by a complex array of genes with several gene-gene interactions and that different genetic mechanisms control remodeling and nonremodeling liver nodules. Frequent deregulation in human liver cancer of genes positioned in chromosomal segments syntenic to rat susceptibility/resistance loci suggests some similarities between the genetic mechanisms involved in hepatocarcinogenesis in rats and humans