Differentiation of seminiferous tubule-associated stem cells into leydig cell and myoid cell lineages.

Peritubular stem Leydig cells (SLCs) have been identified from rat testicular seminiferous tubules. However, no stem cells for peritubular myoid cells have been reported in the adult testis so far. In the present study, we tested the hypothesis that the peritubular SLCs are multipotent and able to form either Leydig or myoid cells. Using cultured tubules, we show that in the presence of PDGFAA and luteinizing hormone, SLCs became testosterone-producing Leydig cells, while in the presence of PDGFBB and TGFB, the cells formed α-smooth muscle actin-expressing myoid cells. This multipotency was also confirmed by culture of isolated CD90+ SLCs. These results suggest that these stem cells outside the myoid layer are multipotent and give rise to either Leydig or myoid cells, depending on the inducing factors. These cells may serve as a common precursor population for maintaining homeostasis of both Leydig and myoid cell populations in the adult testis. Image 1 • PDGFAA and PDGFBB stimulate peritubular stem cell proliferation. • PDGFAA stimulates differentiation of peritubular stem cells into Leydig cells. • PDGFBB stimulates differentiation of peritubular stem cells into myoid cells. • Isolated peritubular CD90+ cells can form either Leydig or myoid lineages in vitro. [ABSTRACT FROM AUTHOR]