Characterization of highly proliferative decidual precursor cells during the window of implantation in human endometrium.

Maria Diniz-Da-Costa,Pavle Vrljicak,Siobhan Quenby,Paul J Brighton,Amelia Hawkes,Jan J Brosens,Chow-Seng Kong,Katherine J Fishwick,Joshua Odendaal,Sascha Ott,Thomas Rawlings,Emma S Lucas

doi:10.1002/stem.3367

Maria Diniz-Da-Costa, Pavle Vrljicak + Show 10 more

Open Access

https://doi.org/10.1002/stem.3367

Copy DOI

Abstract

Pregnancy depends on the wholesale transformation of the endometrium, a process driven by differentiation of endometrial stromal cells (EnSC) into specialist decidual cells. Upon embryo implantation, decidual cells impart the tissue plasticity needed to accommodate a rapidly growing conceptus and invading placenta, although the underlying mechanisms are unclear. Here we characterize a discrete population of highly proliferative mesenchymal cells (hPMC) in midluteal human endometrium, coinciding with the window of embryo implantation. Single-cell transcriptomics demonstrated that hPMC express genes involved in chemotaxis and vascular transmigration. Although distinct from resident EnSC, hPMC also express genes encoding pivotal decidual transcription factors and markers, most prominently prolactin. We further show that hPMC are enriched around spiral arterioles, scattered throughout the stroma, and occasionally present in glandular and luminal epithelium. The abundance of hPMC correlated with the in vitro colony-forming unit activity of midluteal endometrium and, conversely, clonogenic cells in culture express a gene signature partially conserved in hPMC. Cross-referencing of single-cell RNA-sequencing data sets indicated that hPMC differentiate into a recently discovered decidual subpopulation in early pregnancy. Finally, we demonstrate that recurrent pregnancy loss is associated with hPMC depletion. Collectively, our findings characterize midluteal hPMC as novel decidual precursors that are likely derived from circulating bone marrow-derived mesenchymal stem/stromal cells and integral to decidual plasticity in pregnancy.

Highlights

The uterine mucosa—the endometrium—is a highly regenerative tissue capable of adopting different physiological states during the reproductive years.[1,2] In the midluteal phase of the menstrual cycle, the endometrium starts remodeling intensively in response to elevated progesterone levels and rising intracellular cyclic AMP levels,[3] heralding the start of a short window during which an embryo can implant.[4]
This common gene signature is defined by the expression of specific decidual marker genes, including PRL, IL1RL1, and CD82,7,25,52 enhanced expression of mitochondrial and metabolic genes, and the relative lack of stress-related genes when compared with either resident endometrial stromal cells (EnSC) in midluteal endometrium or other decidual subsets present at the maternal-fetal interface in pregnancy
We reported previously that recurrent pregnancy loss is associated with loss of endometrial clonogenicity in midluteal endometrium, measured by colony forming unit (CFU) assays on freshly isolated EnSC,[14] and increased frequency of menstrual cycles with a pro-senescent decidual response.[8]

Summary

| INTRODUCTION

The uterine mucosa—the endometrium—is a highly regenerative tissue capable of adopting different physiological states during the reproductive years.[1,2] In the midluteal phase of the menstrual cycle, the endometrium starts remodeling intensively in response to elevated progesterone levels and rising intracellular cyclic AMP levels,[3] heralding the start of a short window during which an embryo can implant.[4] This process, termed decidualization, begins with an acute stress response in endometrial stromal cells (EnSC),[5] resulting in cell cycle arrest, release of proinflammatory mediators, and influx of uterine natural killer (uNK) cells.[6,7] After a lag period of approximately 4 days, phenotypic decidual cells emerge, coinciding with the closure of the implantation window.[6,7,8] Decidual cells are progesterone-dependent secretory cells with a well-developed endoplasmic reticulum and enlarged nuclei They are refractory to oxidative and metabolic stress signals,[9,10,11,12] and form a quasi-autonomous, antiinflammatory matrix around the implanting embryo, which enables invading extravillous trophoblast to form a hemochorial placenta.[3] In addition, the maternal decidua creates a tolerogenic microenvironment that harbors an abundance of infiltrating immune cells, foremost uNK cells and macrophages, dendritic cells, and regulatory T cells.[13]. We further demonstrate that a lack of these novel human decidual precursor cells is associated with recurrent pregnancy loss

| MATERIALS AND METHODS

| RESULTS

Findings

| DISCUSSION

| CONCLUSION