Abstract text Globally, 39% of the adult population is overweight or obese, with the prevalence of obesity following an upward trajectory over the recent decades (WHO). Up to 30% of women of reproductive age in Western countries are obese before conception, and obese women experience higher rates of infertility and pregnancy complications than lean women; however, the mechanisms underpinning obesity-related infertility are poorly understood. Advanced Glycation Endproducts (AGEs) are a proinflammatory modification of proteins exposed to sugars, formed through the Maillard reaction. AGEs are elevated four-fold in the uterine fluid of obese, infertile women, compared to lean. AGEs equimolar to those in the obese microenvironment negatively impact the functions of endometrial epithelial and stromal cells, and adhesion and invasion of trophoblast cells, reducing the potential for successful maternal-fetal interactions (Antoniotti et al., 2018). This research further investigated preimplantation embryo development and endometrial cell functions in the presence of AGEs equimolar to those in obese uterine fluid. Altered local environments in very early life can set offspring up for a lifetime of health or disease (DoHAD); thus, uterine AGEs may contribute to the prevalence of non-communicable disease in children of obese parents. Preimplantation mouse embryos were cultured in vitro with AGEs equimolar with uterine fluid concentrations from lean and obese women, and their development and implantation potential assessed. “Obese” AGEs did not impact the proportion of embryos reaching blastocyst stage by day 4, but significantly reduced the proportion of blastocysts hatching by day 5 (P < 0.01). AGEs equimolar with the obese uterine environment detrimentally impacted trophectoderm formation and function: reduced trophectoderm cell number (P < 0.01), reduced outgrowth on fibronectin (indicative of reduced implantation potential, (P < 0.01), but did not increase cell apoptosis (TUNEL assay). RAGE antagonism, but neither metformin nor antioxidants, improved trophectoderm cell number. Thus, obesity-associated AGEs link obesity and reduced fertility through poor placentation potential of embryos (Hutchison et al, 2020). Endometrial epithelial cell function was examined in the presence of lean and obese concentrations of AGEs. Obese AGEs significantly reduced the rate of proliferation (xCelligence real time cell analysis) of the endometrial epithelial cell line ECC-1 versus lean AGEs (P = 0.04). Antioxidants successfully restored the rate of proliferation in the presence of obese AGEs (P = 0.7 versus lean AGEs). Subsequently, human endometrial epithelial organoid culture was utilised as a more physiologically relevant experimental paradigm. When cultured as organoids, primary endometrial epithelial cells were functionally responsive to obesity-associated AGEs, expressing both RAGE and TLR4. The morphology of organoids in culture was not impacted by the presence of obese AGEs versus lean; however, the proliferation of epithelial cells retrieved from organoid culture was altered by obese AGEs versus lean. Obese AGEs also increased the secretion of proinflammatory CXCL16 versus vehicle control (P = 0.04) while increased secretion of other proinflammatory cytokines and chemokines including TNFa approached significance in the presence of obese AGEs. As the inflammatory milieu is altered in the uterine fluid of infertile women, elevated AGEs may promote an infertile endometrial inflammatory environment. AGEs link obesity and reduced fertility, being detrimental to preimplantation embryo development and endometrial cell function when present at concentrations equal to those in obese uterine fluid. Antioxidants and RAGE antagonism provide beneficial effects to cell function in the presence of obesity-associated AGEs. This research provides evidence supporting AGEs as a factor contributing to obesity related infertility, and as an emerging frontier for reproductive health. Clinically, reduction of uterine AGEs may improve fertility for obese couples wishing to conceive. Antoniotti et al (2018). Hum Rep. 33(4), 654-665. PMID: 29471449 Hutchison et al (2020). RBMO. 41(5), 757-766. PMID: 32972872
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