117. THE ROLE OF FOCAL ADHESION PROTEINS AND THEIR HORMONAL REGULATION IN RAT UTERINE EPITHELIAL CELLS DURING EARLY PREGNANCY

Abstract

Uterine epithelial cells (UECs) undergo extensive alteration during early pregnancy followed by their removal in order for the implanting blastocyst to penetrate into the underlying endometrium. Focal adhesions (FAs) may play a role during this process as FAs provide adhesion between the cell and its underlying basal lamina. The present study investigated the distribution and expression of FA proteins in rat UECs at the time of implantation and their hormonal control as well as their expression in blastocyst stage embryos. Immunofluorescence microscopy showed that the principal focal adhesion proteins, talin and paxillin, were localised along the basal cell surface of UECs on day 1 of pregnancy, however they were markedly reduced from the site of FAs at the time of implantation. This is thought to be a critical process in the removal of UECs, which allows the invasion of the blastocyst into the underlying endometrium. Hormone treatments in ovariectomised rats showed that disassembly of talin and paxillin from the site of FAs were predominantly under the control of progesterone. Formation of FAs is initiated by the clustering of specific integrin subunits and both integrin beta1 and beta3 colocalised and interacted with talin at the site of FAs on day 1 of pregnancy. Integrin beta1 and beta3 disassembled from the site of FAs at the time of implantation, however integrin beta3 significantly increased along the apical membrane at this time suggesting a role in embryo attachment. In the rat blastocyst, integrin beta3 was concentrated around the nuclei of the trophoblast cells and once the blastocyst was placed onto a receptive endometrial cell line, Ishikawa cell line, integrin beta3 relocated to the apical membrane of the trophoblast cells. Taken together, our results show that disassembly of FA proteins plays a pivotal role in the removal of UECs in order to establish successful implantation and is tightly regulated by ovarian hormones.