“…progesterone's memory effect in the uterus; the requirement for progesterone priming and its long-term effects on implantation in the mouse (Huet and Dey, 1990); blastocyst's state of activity determines the window of implantation (Paria et al, 1993); role of Cox2-derived prostaglandins and PPARδ in multiple female reproductive processes including implantation (Lim et al, 1997(Lim et al, , 1999; the role of cannabinoids/endocannabinoids in early pregnancy ; the identification of HB-EGF as the first indicator of the embryo-uterine interaction (Das et al, 1994); and findings in FKBP52 knockout mice that helped us understand progesterone sensitivity threshold requirements at different stages of pregnancy (Tranguch et al, , 2007; our unexpected finding when we moved from KUMC to Vanderbilt about diet-induced reproductive phenotype changes ; the use of cPLA2 knockout mice to understand the ripple effects throughout pregnancy, i.e., once things go wrong, full complement of pregnancy cannot be maintained (Song et al, 2002); and more recently, our findings of the importance of Msx genes and epithelial cell polarity in pregnancy (Daikoku et al, 2011) and the role of premature decidual senescence in promoting preterm birth (Hirota et al, 2010;Cha et al, 2013). These discoveries were mostly based on our studies in mouse models, but many of them have now shown clinical implications.…”