Mitochondrial malfunction-initiated Leydig cell premature senescence partially participates in 1-nitropyrene-evoked downregulation of steroidogenic synthases in testes

Serum testosterone (T) in males has been declining during the past decades. The previous reports found that 1-nitropyrene (1-NP) exposure suppressed testicular T synthesis. The purpose of the current study was to further explore whether premature senescence participates in 1-NP-triggered reduction of testicular T synthesis. Adult male mice were orally exposed to 1-NP (0, 100, and 500 μg/kg) daily for 14 days. Serum and testicular T contents were diminished in 1-NP-administered mice. Mitochondria-located steroidogenic synthases, including StAR, CYP11A1, and 3βHSD1, were downregulated in 1-NP-administered mouse testes and MLTC-1 cells. Mechanistically, 1-NP exposure increased acetylation modification of mitochondrial steroidogenic synthases by inhibiting the enzymatic activity of SIRT3, an NAD⁺-dependent deacetylase. Supplementing NAD ⁺ precursor and SIRT3 overexpression relieved 1-NP-triggered reduction of steroidogenic synthase levels in mouse testes and MLTC-1 cells. By contrast, SIRT3 silencing aggravated 1-NP-evoked acetylation and reduction of steroidogenic synthase levels in MLTC-1 cells. Further experiments demonstrated that 1-NP exposure caused mitochondrial malfunction and premature senescence in mouse testes and MLTC-1 cells. Supplementation with mitochondria-directed antioxidant mitoquinone (MitoQ) prevented 1-NP-evoked Leydig cell premature senescence and downregulation of testicular steroidogenic synthases. These results suggest that mitochondrial malfunction-initiated Leydig cell premature senescence may partially participate in 1-NP-evoked reduction of steroidogenic synthase levels in testes.