Left cleft lip predominance and genetic similarities of L line and CL/Fr strain mice.

Newborn litters of the L line and CL/Fr and A/JFr strains were examined, and sex, frequency and type of cleft lip (left, right or bilateral) were recorded. Embryos and fetuses from crosses between these strains and line were collected on days 13 to 16 of gestation, and frequency and type of cleft lip recorded. Overall cleft frequencies in L X CL/Fr, CL/Fr X L, and CL/Fr X A/JFr crosses (female stated first) were similar, while in A/JFr X L (10.3%) they were significantly lower than in L X A/JFr (23.3%). The data suggested that the same maternal effect genes were present in CL/Fr and the related L line and absent from A/JFr. In the L, CL/Fr, and A/JFr newborns, there was a tendency for males to have higher frequencies of cleft lip and bilateral cleft lip and the latter was significant for L. Left cleft lip frequency was significantly higher than right for L and CL/Fr newborns and in embryos of the CL/Fr X L and L X CL/Fr cross. No significant differences in laterality were found in the A/JFr strain, A/JFr X L, L X A/JFr, and CL/Fr X A/JFr crosses. It was concluded that (1) the embryonic and maternal effect genes for cleft lip are similar or identical in CL/Fr and L; and (2) using data from the literature, there are additional genetic factor(s) increasing left cleft lip occurrence acting in the embryo, which are present in CL/Fr, L, A/HeJ, A/He, and A/St and absent from A/JKt, A/J, A/JFr, and A/WySn.

Increased susceptibility to 6-aminonicotinamide-induced cleft lip of heterozygote Dancer mice.

Dancer heterozygotes (Dc/+) very rarely have cleft lip and show a dancing behaviour due to inner ear defects while homozygotes (Dc/Dc) have cleft lip. Males of the two genotypes Dc/+ and +/+ were mated to C3H strain and R stock females and Dc/+ males to Dc/+ females. On day 10/8 of gestation females were treated with 6-aminonicotinamide (6AN) at either 19 mg/kg or 28.5 mg/kg followed 3 h later by a protective dose of nicotinamide. Controls were untreated. Both 6AN treatments caused a significant increase in cleft lip to between 25% and 29% for crosses of Dc/+ males to C3H and R females whereas crosses with +/+ males gave 0% cleft lip. In the controls the cleft lip frequency was: for Dc/+ X Dc/+ 14%, Dc/+ X C3H 1.4%, and for the other three crosses 0%. The four crosses given the high dose of 6AN and the +/+ X C3H and Dc/+ X R cross at the low dose showed significantly increased resorption rates to between 23% and 47% over the control rates of from 5% to 11%. The presence of the Dc gene increased the susceptibility to cleft lip caused by 6AN.