Production of Hyaluronan by the Trophectoderm is a Prerequisite for Mouse Blastocyst Attachment

Embryo implantation requires execution of highly synchronized processes at the feto-maternal interface, initiated by blastocyst attachment to the endometrial epithelium. Hyaluronan is a major ECM component known to regulate adhesion-associated biological processes in various physiological settings. We hypothesized that hyaluronan may facilitate blastocyst attachment. In order to test our hypothesis, we characterized the blastocyst expression of hyaluronan synthesizing and degrading enzymes, as well as the expression of hyaluronan receptors during attachment. The functional impact of hyaluronan was challenged by the use of mouse transgenic blastocysts, in which genes encoding for hyaluronan synthesizing enzymes were deleted using lentiviral incorporation of Cas-9 endonuclease alongside specific short-guide RNAs into the embryonic trophectoderm. Embryos with transgenic trophectoderm were tested for their attachment in vitro, or assessed for implantation in vivo, upon transfer to foster dams. Deletion of the trophectoderm hyaluronan biosynthesis significantly reduced the number of blastocysts attached to human uterine epithelium cells in vitro. Reduced attachment was also observed in vivo, in pregnant mice carrying blastocysts with hyaluronan-depleted trophectoderm. In agreement, trophectoderm expression of osteopontin, was downregulated upon depletion of hyaluronan. MRI measurements revealed a decrease in uterine blood vessels permeability. Uterine expression of VEGF-A, PTGS-2 and uterine osteopontin, which constitute the immediate response to blastocyst attachment was also reduced. Furthermore, impaired implantation, associated with a decrease in hyaluronan synthesis in the mural trophectoderm, obtained upon tamoxifen treatment, has been recovered by LIF administration. These results demonstrate that estrogen-regulated hyaluronan-synthesis in the trophectoderm is indispensable for mouse blastocysts attachment to the uterine epithelium.