Abstract
Abstract Study question Is there a difference in frequency, receptor expression and cytokine production of uterine NK cells (uNK) subpopulations in women with reproductive failure compared to controls? Summary answer Reproductive failure is associated with global underexpression of uNK receptors interacting with extravillous trophoblasts (EVT) that may result in defective implantation and placentation. What is known already A significant proportion of infertility, recurrent miscarriage and recurrent implantation failure are unexplained. This may be caused by immunological dysfunction at the maternal-fetal interface resulting in defective implantation and placentation. uNK is thought to play an important role in early pregnancy by cross-talking with EVT via KIR/HLA-C, LILRB1/HLA-G and CD94/HLA-E interactions to regulate EVT invasion and spiral arteriole remodeling in the decidua. Dysregulation of uNK function may cause reproductive failure; however it is unclear whether NK cell over- or under-activation is the pathology. Previous studies have been conducted on uNK obtained after miscarriage, which may be confounded by inflammatory processes. Study design, size, duration Here, we conducted a cross-sectional study to assess frequency, phenotype and function of matched pNK and uNK during the window of implantation in 16 women with reproductive failure compared to 11 controls. Women with reproductive failure cohort included unexplained subfertility (9), recurrent miscarriage (4) and recurrent implantation failure (3). The women were subsequently followed up after IVF and comparison made between women who did and did not fall pregnant. Participants/materials, setting, methods Matched peripheral blood and endometrial tissue were obtained from participants during the mid-secretory phase. Samples were accurately timed for 7-9 days after ovulation by urine LH test or histological dating. Flow cytometry was used to assess the frequency, phenotype and function. Phenotype was measured by KIR, LILRB1 and CD94 and receptor expression. Function was measured by degranulation (anti-CD107a internalization) and cytokine production (TNF-α, GM-CSF, IFN-γ and IL-8), with and without stimulation by PMA and ionomycin. Main results and the role of chance The expression of KIR2DL1/S1 and LILRB1 were significantly lower in reproductive failure group for both uNK (total uNK, uNK2 and 3) and pNK. The common finding in both uNK and pNK suggests that this is not tissue specific and may have an immunogenetic aetiology. We have previously found that degranulation peaks during secretory phase and in first trimester pregnancy. TNF-α production was also found to peak in secretory phase. Here, we found that degranulation activity of total uNK, as well as TNF-α production all uNK subsets was significantly lower in reproductive failure compared to control group. However, no significant difference was found in women in the reproductive failure cohort who fell pregnant compared to women who did not fall pregnant or miscarried after IVF. Contrary to findings from previous studies, we have not found any difference in uNK or pNK frequencies in any of the groups that were examined. Taken together, our findings suggest that reproductive failure is associated with global underexpression of receptors important for interaction with HLA-C and HLA-G on EVT, resulting in reduced uNK activation. This in turn may lead to dysregulation of implantation and placenta formation in early stage of pregnancy. Limitations, reasons for caution KIR2DL1/S1 antibody used does not distinguish between KIR2DL1 and KIR2DS1 which exerts inhibitory and activating effects respectively. Larger cohort studies on both pNK and uNK that consider KIR2DL1 and KIR2DS1 separately is needed to confirm which of these receptors are specifically reduced in reproductive failure. Wider implications of the findings Overall, our findings suggest that reproductive failure is associated with global underexpression of NK cell receptors leading to impaired implantation and placentation. This is the first study to examine uNK subsets during window of implantation and will serve as a platform to focus on particular uNK subsets in future studies. Trial registration number Not applicable
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