Mitochondrial disease model mice, mitomice, were created using zygotes of B6mtspr strain mice carrying mitochondrial DNA (mtDNA) from Mus spretus as recipients of exogenous mitochondria carrying wild-type and a deletion mutant mtDNA (DeltamtDNA) of M. musculus domesticus. In these experiments, mtDNAs from different mouse species were used for identification of exo- and endogenous wild-type mtDNAs in the mitomice. Results showed transmission of exogenous DeltamtDNA, but not exogenous wild-type mtDNA, of M. m. domesticus to following generations through the female germ line. Complete elimination of exogenous wild-type mtDNA would be due to stochastic segregation, whereas transmission of exogenous DeltamtDNA would be due to its smaller size leading to a propagational advantage. Tissues in mitomice of the F3 generation carrying exogenous DeltamtDNA showed protection from respiration defects until DeltamtDNA accumulated predominantly. This protection from expression of mitochondrial dysfunction was attained with the help of endogenous wild-type mtDNA of M. spretus, since mitomice did not possess exogenous wild-type mtDNA of M. m. domesticus. These observations provide unambiguous evidence for the presence of interaction between exogenous mitochondria carrying DeltamtDNA and endogenous mitochondria carrying M. spretus wild-type mtDNA.
Copyright 2004 Genetics Society of America