Paul J. Brighton scite author profile

In cycling human endometrium, menstruation is followed by rapid estrogen-dependent growth. Upon ovulation, progesterone and rising cellular cAMP levels activate the transcription factor Forkhead box O1 (FOXO1) in endometrial stromal cells (EnSCs), leading to cell cycle exit and differentiation into decidual cells that control embryo implantation. Here we show that FOXO1 also causes acute senescence of a subpopulation of decidualizing EnSCs in an IL-8 dependent manner. Selective depletion or enrichment of this subpopulation revealed that decidual senescence drives the transient inflammatory response associated with endometrial receptivity. Further, senescent cells prevent differentiation of endometrial mesenchymal stem cells in decidualizing cultures. As the cycle progresses, IL-15 activated uterine natural killer (uNK) cells selectively target and clear senescent decidual cells through granule exocytosis. Our findings reveal that acute decidual senescence governs endometrial rejuvenation and remodeling at embryo implantation, and suggest a critical role for uNK cells in maintaining homeostasis in cycling endometrium.

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Neuromedin U and Its Receptors: Structure, Function, and Physiological Roles

Brighton

Szekeres²,

Willars³

2004

Pharmacol Rev

248

219

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Recurrent pregnancy loss is associated with a pro-senescent decidual response during the peri-implantation window

et al. 2020

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During the implantation window, the endometrium becomes poised to transition to a pregnant state, a process driven by differentiation of stromal cells into decidual cells (DC). Perturbations in this process, termed decidualization, leads to breakdown of the feto-maternal interface and miscarriage, but the underlying mechanisms are poorly understood. Here, we reconstructed the decidual pathway at single-cell level in vitro and demonstrate that stromal cells first mount an acute stress response before emerging as DC or senescent DC (snDC). In the absence of immune cell-mediated clearance of snDC, secondary senescence transforms DC into progesterone-resistant cells that abundantly express extracellular matrix remodelling factors. Additional single-cell analysis of midluteal endometrium identified DIO2 and SCARA5 as marker genes of a diverging decidual response in vivo. Finally, we report a conspicuous link between a pro-senescent decidual response in peri-implantation endometrium and recurrent pregnancy loss, suggesting that pre-pregnancy screening and intervention may reduce the burden of miscarriage.

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Loss of Endometrial Plasticity in Recurrent Pregnancy Loss

et al. 2015

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Menstruation drives cyclic activation of endometrial progenitor cells, tissue regeneration, and maturation of stromal cells, which differentiate into specialized decidual cells prior to and during pregnancy. Aberrant responsiveness of human endometrial stromal cells (HESCs) to deciduogenic cues is strongly associated with recurrent pregnancy loss (RPL), suggesting a defect in cellular maturation. MeDIP-seq analysis of HESCs did not reveal gross perturbations in CpG methylation in RPL cultures, although quantitative differences were observed in or near genes that are frequently deregulated in vivo. However, RPL was associated with a marked reduction in methylation of defined CA-rich motifs located throughout the genome but enriched near telomeres. Non-CpG methylation is a hallmark of cellular multipotency. Congruently, we demonstrate that RPL is associated with a deficiency in endometrial clonogenic cell populations. Loss of epigenetic stemness features also correlated with intragenic CpG hypomethylation and reduced expression of HMGB2, coding high mobility group protein 2. We show that knockdown of this sequence-independent chromatin protein in HESCs promotes senescence and impairs decidualization, exemplified by blunted time-dependent secretome changes. Our findings indicate that stem cell deficiency and accelerated stromal senescence limit the differentiation capacity of the endometrium and predispose for pregnancy failure. STEM CELLS 2016;34:346-356 SIGNIFICANCE STATEMENTRecurrent pregnancy loss (RPL) is a common and distressing disorder. While many risk factors have been invoked to explain RPL, the underlying pathological pathways are not understood. We demonstrate that RPL is strongly associated with uterine stem cell deficiency and enhanced cellular senescence. This in turn perturbs endometrial preparation for pregnancy, a process termed decidualization, and persistence of these defects over several conception cycles will lead to consecutive miscarriages. Our findings open up new avenues to screen women prior to pregnancy for the risk of miscarriage and point to the potential of cell-based therapies in the prevention of RPL.

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Recurrent pregnancy loss is associated with a pro-senescent decidual response during the peri-implantation window

Lucas

Vrljicak

Muter

et al. 2018

Preprint

141

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SummaryThe fate of the human endometrium is determined during the mid-luteal window of implantation, coinciding with differentiation of endometrial stromal cells (EnSCs) into specialized decidual cells.In response to successful embryo implantation, differentiating EnSCs transform the endometrium into a decidua that maintains the placenta throughout gestation; whereas falling progesterone levels in the absence of pregnancy lead to tissue destruction and menstrual shedding. We used single-cell

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Paul J. Brighton

Clearance of senescent decidual cells by uterine natural killer cells in cycling human endometrium

Neuromedin U and Its Receptors: Structure, Function, and Physiological Roles

Recurrent pregnancy loss is associated with a pro-senescent decidual response during the peri-implantation window

Loss of Endometrial Plasticity in Recurrent Pregnancy Loss

Recurrent pregnancy loss is associated with a pro-senescent decidual response during the peri-implantation window

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