Strain difference of the mouse in manifestation of hydrocephalus following prenatal methylmercury exposure

Abstract

Genetic background may influence susceptibility to hydrocephalus. In the present experiment we compared the manifestation of hydrocephalus following prenatal methylmercury exposure among strains of mice which sporadically develop or never develop spontaneous hydrocephalus. Pregnant mice of the B10.D2 congenic strain were given a single oral dose of 10 mg/kg methylmercuric chloride on one of days 14 through 17 of pregnancy and allowed to give birth and rear their litters. The incidence of grossly apparent hydrocephalus in the offspring at 30 days of age following treatment on day 14, 15, 16, or 17 of pregnancy was 67, 88, 75, and 48%, respectively; that of sham-treated and untreated offspring was 5 and 4%, respectively. In addition, there were some brains showing slight dilatation of the lateral ventricles. Pregnant females of C57BL/10 (B10) or DBA/2 (D2) strain were also treated with 10 mg/kg methylmercury on day 15 of pregnancy. The incidence of hydrocephalus at 30 days of age in untreated and dosed B10 mice was 0.8 and 54%, respectively. Hydrocephalus failed to develop in D2 mice. The hydrocephalus is a communicating type. Occlusion of the cerebral aqueduct with glial reaction and caudal displacement of the cerebellum are considered to be secondary changes. The results indicate that the susceptibility to methylmercury-induced hydrocephalus is under genetic control in mice.