Potential functions of retinoic acid receptor A in Sertoli cells and germ cells during spermatogenesis.

Elucidation of the retinoid signaling circuitry in the testis is critical to understanding how male germ cells develop to spermatozoa. Retinoic acid receptor A protein (RARA) is an essential mediator of retinoid signaling in the testis, as shown by a sterility phenotype observed for retinoic acid receptor A gene (Rara) knockout male mice. The seminiferous tubules of Rara knockout mice showed varying degrees of germ-cell degeneration. A dramatic increase in apoptosis of early meiotic prophase spermatocytes was observed in these tubules compared to the wild-type tubules. Germ-cell loss was dependent on the stages of the spermatogenic cycle: germ-cell loss was negligible in stages I-V, but severe after stages VIII and IX of the spermatogenic cycle. Using spermatogonial transplantation, the individual function of RARA in Sertoli cells or germ cells was determined. The wild-type donor germ cells, transplanted into Rara knockout testes, colonized and proliferated in the RARA-deficient microenvironment. The donor-derived cells were mostly early meiotic prophase spermatocytes, with few more advanced germ cells detected. Conversely, when Rara-deficient germ cells were injected into the microenvironment that express RARA, establishment of donor-derived germ-cell colonies was rare, but remarkably, once colonized, Rara-deficient germ cells progressed normally through spermatogenesis. These results together suggest that RARA may function in Sertoli cells to promote the survival and development of early meiotic prophase spermatocytes, whereas RARA in germ cells functions to increase the proliferation and differentiation of spermatogonia, prior to meiotic prophase.

Positive regulation of retinoic acid receptor alpha by protein kinase C and mitogen-activated protein kinase in sertoli cells.

Retinoic acid receptor alpha (RARalpha) is required for normal testis function. Similar to other steroid hormone receptors, RARalpha appears to undergo an activation process by which it translocates from the cytoplasm to the nucleus where it acts as a transcription factor. In this report, we demonstrate that RARalpha nuclear trafficking in Sertoli cells is positively regulated by phorbol-12-myristate-13-acetate-activated protein kinase C without the requirement of ligand, retinoic acid. Protein kinase C then stimulates the downstream mitogen-activated protein kinase, and the nuclear localization of RARalpha is dependent on activation of both kinases. The increase in RARalpha nuclear translocation is also coupled with enhanced transcriptional activity of RARalpha. This mechanism of RARalpha positive regulation is unique, different from that of its negative regulation, that has previously been shown to be dependent on cAMP-dependent protein kinase A and more importantly, dependent on its ligand. However, the mechanism by which retinoic acid positively influences the nuclear localization of RARalpha is not due to retinoic acid directly increasing protein kinase C or mitogen-activated protein kinase activities. Nonetheless, the positive influence of retinoic acid is also dependent on these two kinases as determined by inhibitor studies. These results suggest two mechanisms for RARalpha activation in Sertoli cells: one involving only the two kinases, the other involving both the ligand and the two kinases. These regulatory mechanisms for RARalpha activation, both positive and negative, may be critical for the proper function of RARalpha in the testis.