the process of implantation, trophoblast invasion and placentation demand continuous adaptation and modifications between the trophoblast (embryonic) and the decidua (maternal). Within the decidua, the maternal immune system undergoes continued changes, as the pregnancy progress, in terms of the cell population, phenotype and production of immune factors, cytokines and chemokines. Human chorionic gonadotropin (hCG) is one of the earliest hormones produced by the blastocyst and has potent immune modulatory effects, especially in relation to T cells. We hypothesized that trophoblastderived hcG modulates the immune population present at the maternal fetal interface by modifying the cytokine profile produced by the stromal/decidual cells. Using in vitro models from decidual samples we demonstrate that hcG inhibits CXCL10 expression by inducing H3K27me3 histone methylation, which binds to Region 4 of the CXCL10 promoter, thereby suppressing its expression. hCG-induced histone methylation is mediated through EZH2, a functional member of the PRC2 complex. Regulation of CXCL10 expression has a major impact on the capacity of endometrial stromal cells to recruit CD8 cells. We demonstrate the existence of a cross talk between the placenta (hCG) and the decidua (CXCL10) in the control of immune cell recruitment. Alterations in this immune regulatory function, such as during infection, will have detrimental effects on the success of the pregnancy. The coordinated balance between the invading trophoblast and a receptive maternal decidua is critical for the success of pregnancy 1,2. The process of implantation, trophoblast invasion and placentation demand continuous adaptation and modifications between the trophoblast (embryonic) and the decidua (maternal) 3-5. Within the decidua, the maternal immune system undergoes continued modifications, as the pregnancy progresses, in terms of the cell population, phenotype and production of immune factors, cytokines and chemokines 6. These adaptation processes are essential for the normal progression of the pregnancy. The decidua, the pregnant uterine endometrium, has long been considered as a supportive environment for the immune cells and the trophoblast present at the implantation site. However, growing evidence suggest that decidual stromal cells (DSCs) may play a more active role in the regulation of differentiation, migration and function of uterine immune cells 7 as well as in the protection against infections 8. Immune cells are a major cellular component of the human and rodents' pregnant uterus, and their specific role has been an area of active research. During the first trimester of the human pregnancy, 70% of the leukocytes found in the decidua are Natural Killer (NK) cells, 20% to 25% are macrophages, and approximately 1.7% are dendritic cells (DCs) 9-11. In addition, the uterine T cell population expands across gestation, and are mostly regulatory in nature 12. The recruitment of immune cells into the uterus is cell specific and their function is locally controlled 7 .
