Immunophilin FKBP52 serves as a cochaperone to govern normal progesterone (P4) receptor (PR) function. Using Fkbp52–/– mice, we show intriguing aspects of uterine P4/PR signaling during pregnancy. Implantation failure is the major phenotype found in these null females, which is conserved on both C57BL6/129 and CD1 backgrounds. However, P4 supplementation rescued implantation and subsequent decidualization in CD1, but not C57BL6/129, null females. Surprisingly, experimentally induced decidualization in the absence of blastocysts failed in Fkbp52–/– mice on either background even with P4 supplementation, suggesting that embryonic signals complement uterine signaling for this event. Another interesting finding was that while P4 at higher than normal pregnancy levels conferred PR signaling sufficient for implantation in CD1 null females, these levels were inefficient in maintaining pregnancy to full term. However, elevating P4 levels further restored PR signaling to a level optimal for successful term pregnancy with normal litter size. Collectively, the results show that the indispensability of FKBP52 in uterine P4/PR signaling is a function of genetic disparity and is pregnancy stage specific. Since there is evidence for a correlation between P4 supplementation and reduced risks of P4-resistant recurrent miscarriages and remission of endometriosis, these findings have clinical implications for genetically diverse populations of women.
Susanne Tranguch, Haibin Wang, Takiko Daikoku, Huirong Xie, David F. Smith, Sudhansu K. Dey
P4 delivery via Silastic implants rescues blastocyst-induced, but not oil-induced, decidualization in