Biochemical and molecular effects of gestational and lactational coexposure to lead and cadmium on ovarian steroidogenesis are associated with oxidative stress in F1 generation rats.

Few studies have characterized the molecular and biochemical mechanisms involved in ovarian steroidogenesis disruption by heavy metals, such as lead and cadmium coexposure, on F1 generation offspring. In this study, adult pregnant female rats were treated subcutaneously (0.05 mg/kg of body weight per day) with sodium acetate (control), lead acetate, and cadmium acetate separately and in combination throughout gestational and lactational period, and all animals from each of the experimental groups were sacrificed by decapitation on postnatal day 56 for various assays. The activities of key steroidogenic enzymes (17β-hydroxysteroid dehydrogenase and 3β-hydroxysteroid dehydrogenase) decreased in all the metal-treated groups. But the most significant decrease in the activities was observed in the cadmium-treated group, whereas the combined exposure group showed an intermediate effect. Serum estradiol and progesterone levels were also significantly altered in all the metal-treated groups, with the cadmium-exposed group showing maximum reductions as compared with the control group. The inhibitory effects of lead and cadmium on ovarian steroidogenic acute regulatory protein (StAR) mRNA levels along with CYP11 mRNA levels were also observed. Ovarian cholesterol content measured also showed significant depletion in all the metal-treated groups, with the cadmium-exposed group showing the maximum depletion. The activities of ovarian enzymatic antioxidants, such as superoxide dismutase, catalase, and glutathione peroxidase, were all significantly diminished along with significant depletion in nonenzymatic antioxidants. Lipid peroxidation was elevated significantly in all the metal-treated groups. In conclusion, lead and cadmium inhibit ovarian steroidogenesis by downregulating StAR gene expression along with inhibiting activities of steroidogenic enzymes and antioxidant system.

Pillai P ，Pandya C ，Gupta S ，Gupta S ... -  《-》

Biochemical and reproductive effects of gestational/lactational exposure to lead and cadmium with respect to testicular steroidogenesis, antioxidant system, endogenous sex steroid and cauda-epididymal functions.

This study investigated the effects of gestational and lactational exposure to lead and cadmium on testicular steroidogenesis, antioxidant system and male accessory gland functions in F1 generation rats to understand the biochemical mechanisms involved in endocrine disruptions. Pregnant rats were subcutaneously administered with 0.05 mg kg(-1) body wt\ day(-1) of sodium acetate (control), lead acetate, cadmium acetate and (lead acetate + cadmium acetate) throughout the gestational-lactational period, and all animals from each of the experimental groups were sacrificed by decapitation on post-natal day 56 for performing various biochemical assays. We observed significant reduction in the activities of testicular key steroidogenic enzymes and serum testosterone concentration along with significant depletion in cholesterol, ascorbic acid and reduced glutathione contents in all the metal-treated groups. Reductions in the activities of catalase and superoxide dismutase with concomitant increase in the levels of thiobarbituric acid reactive substance were observed in experimental groups. Both sperm contents and sperm motility patterns were significantly altered in all the metal-treated groups, suggesting the direct/indirect spermotoxic effects of lead and cadmium. The inhibitory effects of lead, cadmium and combined exposure on testicular steroidogenesis machinery, along with the male accessory gland functions, are indicative of multiple targets of lead and cadmium to disrupt male reproductive functions.

Pillai P ，Pandya C ，Bhatt N ，Gupta SS ... -  《-》

Sex-specific effects of gestational and lactational coexposure to lead and cadmium on hepatic phase I and phase II xenobiotic/steroid-metabolizing enzymes and antioxidant status.

Pillai P ，Patel R ，Pandya C ，Gupta S ... -  《-》

Biochemical effects of gestational coexposure to lead and cadmium on reproductive performance, placenta, and ovary.

Nampoothiri LP ，Gupta S 《-》

Effect of gestational and lactational exposure to lead and/or cadmium on reproductive performance and hepatic oestradiol metabolising enzymes.

Pillai A ，Gupta S 《TOXICOLOGY LETTERS》