Early-life exposure to acephate inhibits sexual development and induces testicular and ovarian toxicity in mice

Abstract

Acephate is an organophosphate insecticide that exerts its toxicity by acting on the nervous system of insects. In addition to its action on the mammalian nervous system, acephate can also induce endocrine disruption of the reproductive system in mammals. However, the effects of acephate on sexual maturation and ovary development remain unclear. This study evaluated whether early-life exposure to acephate negatively impacts the male and female sexual maturation process and mature reproductive tissues. C57BL/6N mice were exposed to acephate (0, 0.3, 300 ppm) in drinking water from embryonic day 11.5 to ablactation, when the pups were four weeks old. Both sexes in the high-dose group experienced an early postnatal growth deficit, while females in the low-dose group continued to gain weight until 10 weeks of age. Exposure to acephate altered the anogenital index in females. Furthermore, preputial separation and vaginal opening were delayed in the high-dose group. At maturity, the weight of the seminal vesicles was decreased in the high-dose group. All treated groups exhibited increased vacuolation, accumulation of residual bodies, and degeneration in the testes. Furthermore, follicle regression was observed, and the healthy follicle number at each developmental stage was decreased in all treated groups. These results are probably due to the inhibition of the regulation by the hypothalamic-pituitary-gonadal axis and direct toxicity to reproductive organs. In conclusion, our study demonstrates that early-life exposure to acephate in mice may disrupt normal postnatal development, postpone puberty onset, and adversely affect reproductive functions during the reproductive period in both sexes.