Thymus-derived glucocorticoids mediate androgen effects on thymocyte homeostasis

Abstract

Androgens contribute to the involution process of the aging thymus gland. However, molecular mechanisms behind this effect remain largely unknown. We have investigated the influence of testosterone on the ectopic synthesis of glucocorticoids (GCs) in thymocytes, an activity recently shown by us to be important for the homeostatic regulation of these cells. Castration, which leads to a strong increase in thymus tissue and function, was associated with a reduced GC release from thymocytes caused by down-regulated expression of several enzymes involved in GC synthesis, without affecting GC synthesis in the adrenals. Testosterone treatment of castrated male mice reversed these effects, also without affecting adrenal GC synthesis. The effects of testosterone in castrated mice on thymocyte homeostasis and GC release were strongly reduced in mice pretreated with the CYP11B1 enzyme inhibitor metyrapone, acting on the last step in the corticosterone synthesis. The androgen-induced thymic involution was dependent on GC action, because this was completely absent in mice lacking GC receptor (GR) expression specifically in thymocytes. We provide here an unrecognized mechanism how androgens contribute to thymic involution by stimulating local synthesis and release of GCs in the thymus.