Physiological Roles of Integrin α6β1 in Ovarian Functions

Abstract

We previously reported that human ovarian cells express integrin β₁ families. The physiological role(s) of integrins was investigated using in vitro human granulosa cell culture and in vivo mouse ovulation model. In human luteinizing granulosa cell culture obtained from the patients undergoing in vitro fertilization treatment, laminin, which is a ligand for integrin α₆β₁, suppressed the production of progesterone by granulosa cells. On the other hand, the anti-α₆ monoclonal antibody (mAb) GoH3, which partially inhibits the interaction between integrin α₆β₁ and laminin, enhanced production of progesterone by 2-fold of the control under the culture with laminin, indicating that integrin α₆β₁ regulates the luteinization of human granulosa cell during the periovulatory phase. In an immature superovulated 13-day-old ICR (CD-1) mice model, intraperitoneal administration of GoH3 induced successful ovulation, whereas no ovulation was observed in the GoH3-nontreated groups, showing that integrin α₆β₁ is related to gonadotropin-induced follicular growth. These findings suggest that the interaction between integrin α₆β₁ and laminin plays an important role in the corpus luteum formation and follicular growth.