Aging has the opposite effect on cAMP and cGMP circadian variations in rat Leydig cells

The Leydig cell physiology displays a circadian rhythm driven by a complex interaction of the reproductive axis hormones and circadian system. The final output of this regulatory process is circadian pattern of steroidogenic genes expression and testosterone production. Aging gradually decreases robustness of rhythmic testosterone secretion without change in pattern of LH secretion. Here, we analyzed effect of aging on circadian variation of cAMP and cGMP signaling in Leydig cells. Results showed opposite effect of aging on cAMP and cGMP daily variation. Reduced amplitude of cAMP circadian oscillation was probably associated with changed expression of genes involved in cAMP production (increased circadian pattern of Adcy7 , Adcy9 , Adcy10 and decreased Adcy3 ); cAMP degradation (increased Pde4a , decreased Pde8b , canceled rhythm of Pde4d , completely reversed circadian pattern of Pde7b and Pde8a ); and circadian expression of protein kinase A subunits ( Prkac/ PRKAC and Prkar2a ). Aging stimulates expression of genes responsible for cGMP production ( Nos2 , Gucy1a3 and Gucy1b3/ GUCYB3) and degradation ( Pde5a , Pde6a and Pde6h ) but the overall net effect is elevation of cGMP circadian oscillations in Leydig cells. In addition, the expression of cGMP-dependent kinase, Prkg1 /PRKG1 is up-regulated. It seems that aging potentiate cGMP- and reduce cAMP-signaling in Leydig cells. Since both signaling pathways affect testosterone production and clockwork in the cells, further insights into these signaling pathways will help to unravel disorders linked to the circadian timing system, aging and reproduction.