Stress alters the transcriptional activity of Leydig cells dependently on the diurnal time

Abstract

The increasing amount of data points to the circadian timing system as an essential part of processes regulating androgen homeostasis. However, the relationship between stress response, timekeeping-, and steroidogenesis-related systems is unexplored. Here, the stress-response of the testosterone-producing rat Leydig cells depending on the time of stressful events was studied. The study analyzes the effects of 3-h immobilization (IMO) applied at different periods during the day. The IMO performed once [1 time immobilization stress (1×IMO)] or repeated in 10 consecutive days [10 time repeated immobilization stress (10×IMO)]. Both types of IMO increased corticosterone and decreased testosterone blood level. However, the effect of 10×IMO occurring in the active phase on blood testosterone was less pronounced. This is related to different sensitivity to IMO-events depending on the diurnal time. Most steroidogenesis-related genes [gene encoding luteinizing hormone/choriogonadotropin receptor ( Lhcgr), gene encoding cytochrome P450, family 11, subfamily a, polypeptide 1 ( Cyp11a1), gene encoding hydroxy-δ-5-steroid dehydrogenase, 3 β- and steroid δ-isomerase 1 ( Hsd3b1/2), and gene encoding cytochrome P450, family 17, subfamily a, polypeptide 1 ( Cyp17a1)] were downregulated in the inactive phase but unchanged or even upregulated in the active phase of the day. Both types of IMO stimulated the expression of clock elements gene encoding aryl hydrocarbon receptor nuclear translocator-like ( Bmal1)/aryl hydrocarbon receptor nuclear translocator-like (BMAL1), gene encoding period circadian regulator 1 ( Per1) /period circadian regulator 1 (PER1) regardless of the day’s stage and reduced gene encoding nuclear receptor subfamily 1, group D, member 1 ( Rev-erba) in the inactive phase. The principal component analysis (PCA) confirmed a major shift, for both IMO-types, in the transcription of the genes across the passive/active stage. Further, 10×IMO changed a diurnal pattern of the glucocorticoid receptor [gene encoding nuclear receptor subfamily 3, group C, member 1 ( Nr3c1)/nuclear receptor subfamily 3, group C, member 1 (GR)] expression, whereas the observed time-dependent IMO-response of the Leydig cells correlated with different corticosterone engagements. Altogether, the Leydig cell’s stress response depends on the daytime of the stressful event, emphasizing the importance of the circadian system in supporting androgen homeostasis and male fertility.