PC6 is up-regulated in the human endometrium specifically at the time of epithelial receptivity. The critical role of PC6 in receptivity has been demonstrated by a significant reduction in the attachment of mouse blastocysts to endometrial epithelial cells after specific knockdown of PC6 by small interfering RNA. Furthermore, PC6 regulation of receptivity has been validated in the human endometrium in vivo in fertile and infertile women. Endometrial PC6 plays a central role in the post-translational cleavage of pro-integrins for blastocyst attachment and adhesion at the commencement of implantation. Compound 1o inhibition of PC6 reduced the cleavage of prointegrin-aV into its subunits, suggesting that one of the mechanisms of compound 1o inhibition of receptivity is through inhibiting PC6 cleavage of pro-integrins. In conclusion, our studies have discovered that compound 1o is a potent PC6 inhibitor with potential pharmaceutical properties to inhibit embryo implantation. In addition, compound 1o showed superior potency than C-30k-PEG Poly R in the inhibition of spheroid attachment in Ishikawa cell. This suggests that PC6 inhibitors in the format of small molecules could have advantages over peptide inhibitors. In both pharmaceutical and academic research, there have been increasing emphases and demand on cell-based assays to reduce the costly failure of drug development in late stages. Here, we highlight the importance of human cell-based functional assays to investigate drug efficiency. These assays provide invaluable information and demonstrate that physicochemical properties of drugs such as lipophilicity must be investigated in addition to biochemical assays; otherwise highly potent drugs selected based on biochemical characteristics may not be necessarily useful. While further studies in animal models are yet to be performed, our data showed for the first time the potential of a non-peptide small molecule PC inhibitor for the development of contraceptives. Dengue viruses belong to the Flaviviridae family and include four RS-1 customer reviews antigenic serotypes. Human infection by any of DENV serotypes may cause a (-)-Calyculin A spectrum of clinical manifestations ranging from mild dengue fever to the severe forms of dengue hemorrhagic fever and dengue sock syndrome, which can be fatal. DENV is transmitted by Aedes mosquitoes pr