The ultrastructural changes in the adult rat ovary after administration of copper oxide nanoparticles and the possible ameliorative influence of selenium.

Abstract

There is an important concern about the potential health and environmental risks that may develop due to exposure to copper oxide nanoparticles (CuO-NPs). Selenium is an essential trace element. It supports the expression of a variety of selenoproteins. The present study was designed to study the ultrastructural and biochemical changes in the adult rat ovary after oral administration of CuO-NPs and to assess the possible ameliorative influence of Selenium. Sixty adult female albino rats were divided in two major groups: Group I and Group II. Group I was further subdivided into three groups: Group IA (control), Group IB: received a single high dose of 2000 mg/kg CuO-NPs, Group IC: received selenium (0.5 mg/kg), five days before giving a single high dose of CuO-NPs (2000 mg/kg). Thereafter, given selenium for 14 days. Group II was subdivided into three groups: Group IIA (control), Group IIB: received a small dose of 300 mg/kg of CuO-NPs for 28 days, Group IIC: received selenium (0.5 mg/kg), five days before starting concomitant administration of CuO-NPs (300 mg/kg) and Selenium (0.5 mg/kg) for 28 days. Damage of the ovarian ultrastructural features, increased MDA levels, and decreased serum estrogen and progesterone hormones levels were detected in group IB and group IIB. Group IC and group IIC showed improvement of ovarian ultrastructural, decreased MDA levels, and increased serum estrogen and progesterone hormones levels as compared to group IB and group IIB indicating that Selenium could decrease the damage induced by CuO-NPs in the adult rat ovaries.