The effects of reduced O2 and antioxidants on steroidogenic capacity of cultured rat Leydig cells.

We have examined the effects of reduced O2 tension and the antioxidant dimethylsulfoxide (DMSO) to determine if O2-derived free radicals are the cause of decreased steroidogenic capacity (testosterone and progesterone production) of cultured rat Leydig cells. Rat Leydig cells were initially cultured under standard conditions of 5% CO2, 95% air (19% O2) with or without DMSO. Addition of DMSO resulted in increased basal testosterone production on days 2, 3 and 4 of culture. hCG (10 mIU)-stimulated testosterone secretion was 2-3 times greater on days 2 and 3 in the presence of DMSO. Lowering the O2 concentration to 5% in the presence of DMSO resulted in even greater hCG-stimulated testosterone production on days 1 to 3. However, the effect of DMSO or low O2 and DMSO were not seen after 5 days. The reduced O2 concentration resulted in an increase in hCG (10 mIU)-stimulated progesterone synthesis throughout the culture, particularly on days 4 to 8. Also, when total steroid (progesterone and testosterone) was determined, cells cultured under reduced O2 conditions responded with increased steroid production on days 1 to 8 in comparison to controls (19% O2). These results demonstrate that lowered O2 concentration and DMSO provide a protective effect resulting in the maintenance of testosterone production and an increase in progesterone synthesis. These findings suggest that free radical-mediated damage of enzymes may result in decreased steroidogenic capacity of cultured Leydig cells.