46 Nakayama et al.47 provided evidence for a beneficial effect of immune cells on early events of embryo implantation by showing that human peripheral blood leukocytes (PBL) from pregnant mothers enhanced murine embryo spreading and invasion in vitro. In addition, co-culture of PBMC isolated from pregnant women with BeWo-cells (i.e., a trophoblast cell line) enhanced their ability to invade into matrigel compared with PBMC isolated
from the secretory phase of the menstrual cycle.48 This effect occurred with the cells isolated on either side of a 0.8 -μm membrane, suggesting the effect was induced by a soluble factor secreted by the PBMC. This factor could, in fact, be CG which was shown to be produced and secreted by PBMC during early pregnancy in women.49 Moreover, Kosaka et al.50 showed PBL promoted attachment of BeWo-cell spheroids to endometrial cells derived from human uteri in the late proliferative click here and SCH727965 early secretory phases. They suggested that PBL may be able to induce endometrial
cells to become ‘receptive’ to embryo implantation. In agreement, Yoshioka et al.51 found that hCG-primed PBMC, in conjunction with freshly prepared PBMC, increased pregnancy rates in women when the PBMC were administered into the uterine lumen 1 day prior to blastocyst transfer. Collectively, these studies highlight how the immune and endocrine system may coordinate events for the establishment and maintenance of pregnancy, and how conceptus signals responsible for rescuing CL function may also play a role in counter-balancing the immunosuppressive effects of progesterone. Surprisingly, there have been relatively few studies examining the effects of hCG on peripheral immune cell gene expression, and no reports
of global transcriptional profiling experiments on Vildagliptin hCG-stimulated immune cells. In the early to mid-1990s, several studies revealed potential similarities between CG and the ruminant type I IFN family to which IFN-τ belongs. In those reports, the β-subunit of CG was purported to possess antiviral activity (characteristic of interferons) against HIV.52–54 However, subsequent studies revealed that this activity resulted from contamination of the preparation by lysozyme and RNAses present in the urine of pregnant women from which the CG was purified.55 These results are consistent with those of Gunn et al.56 who were unable to detect antiviral activity in media conditioned by culture with peri-implantation stage human embryos, even if the embryos were producing detectable amounts of CG. However, there is ample evidence that the human placenta produces IFN during gestation that alters local immune cell function.57 For example, interferon-stimulated gene 15 (ISG15) is induced during early pregnancy in the endometrium of the baboon and human.