During the process of implantation, the embryo first attaches to the uterine epithelium and then invades the underlying stroma, resulting in the transformation of the stroma into a secretory tissue that surrounds the embryo. An intricate dialogue allows the developing embryo and the maternal tissue to be in constant communication with each other. In many mammals, including humans, embryo implantation and early pregnancy events take place in a low-oxygen environment regulated by hypoxia-inducible transcription factors. The mechanisms by which maternal and embryonic tissue compartments adapt to hypoxia are essential for the success of pregnancy outcomes. In this review we highlight recent work describing signaling pathways that operate in the hypoxic uterus to facilitate embryo implantation and promote the successful establishment of pregnancy.
Keywords: decidualization; hypoxia; implantation; pregnancy; uterus.
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