Overexpression Of Leukemia Associated Cbl^Y371H Mutation In Transgenic Mice Causes Dosage Dependent Embryonic Lethality

To address these questions, we tested the oncogenicity of the Cbl^Y371H mutation in transgenic mice. Of the 6 founder transgenic mice, we chose L5 line for further analysis because it had the highest level of expression. As expected, overexpression of Cbl^Y371H by itself in wild type mice had no phenotype since inactivation of wild type Cbl allele is seen in patients. We, then, generated transgenic mice which were heterozygous for both the BAC transgene and the cbl null mutation (Cbl^Y371H; Cbl^+/-) and then bred them to Cbl heterozygous knockout mice (Cbl^+/-). Because homozygous knockout mice have reduced fertility, we preferentially utilized heterozygous mice for the breeding (El Chami et al., 2005). Interestingly, out of the first 118 progeny genotyped where 1/8 of the pups is expected to be the desired genotype (Cbl^Y371H;Cbl^-/-), no pups were of the desired genotype suggesting embryonic lethality. Because mice which lack both c-cbl and cbl-b are embryonic lethal, we reasoned that high expression that is achieved from the L5 line was causing a dominant negative affect on cbl-b function resulting in an embryonic lethal phenotype. We then tested if a lower level of the transgene expression would result in viable pups. We used the K5 line which was the second highest expressing transgenic line. We were now able to generate the desired genotype (Cbl^Y371H; Cbl^-/-) although at less than expected numbers. Thus far, we have generated 4 mice which have the correct genotype which are being monitored for disease. We also monitored the heterozygous mice that carried the transgene (Cbl^Y371H; Cbl^+/-) which were also asymptomatic without any obvious phenotype. Further studies are being done to characterize the hematopoietic phenotype in these mice by isolating fetal liver cells followed by transplantation into lethally irradiated mice and will be discussed.