Benomyl‐induced craniocerebral anomalies in fetuses of adequately nourished and protein‐deprived rats

Abstract

Benomyl, a benzimidazole fungicide, produced craniocerebral and systemic malformations in fetal rats when administered by gavage in doses of 31.2, 62.5, and 125 mg/kg of maternal body weight on days 7–21 of gestation. Malformations increased in incidence and severity with increasing benomyl dosage and nearly doubled when coupled with a protein-deficient diet. Protein deficiency alone produced only decreased fetal weight. High benomyl doses produced higher percentages of fetal resorptions and late fetal deaths, and these percentages also increased with protein deficiency. A benomyl dose of 62.5 mg/kg in proteindeficiency dams, the optimal combination for a high incidence of anomalies and low fetal wastage, produced hydrocephalus in 69.4% of fetuses, meningocele in 8.2%, encephalocele in 14.3%, exencephaly in 44.9%, anencephaly in 14.3%, corpus callosum agenesis in 26.5%, periventricular necrosis in 26.5%, and periventricular cellular “overgrowth” in 55.1%. The most common combination of anomalies was hydrocephalus, exencephaly, and periventricular “overgrowth.” Common systemic malformations included cleft palate, micromelia, hydroureter, and misshapen tails. No fetus was entirely normal at the highest benomyl dose. Benomyl has been shown by others to bind tubulin and inhibit the formation of microtubules that are important in neurulation, mitosis, and cell migration during early brain development. Thus, it is suggested that benomyl, coupled with a protein-deficient diet, offers a teratogenic model with a spectrum of abnormalities similar to hypervitaminosis A but with a higher yield of specific craniocerebral anomalies.