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31 March 2022 Spatial transcriptomic profiles of mouse uterine microenvironments at pregnancy day 7.5
Rong Li, Tian-Yuan Wang, Xin Xu, Olivia M. Emery, MyeongJin Yi, San-Pin Wu, Francesco J. DeMayo
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Abstract

Uterine dysfunctions lead to fertility disorders and pregnancy complications. Normal uterine functions at pregnancy depend on crosstalk among multiple cell types in uterine microenvironments. Here, we performed the spatial transcriptomics and single-cell RNA-seq assays to determine local gene expression profiles at the embryo implantation site of the mouse uterus on pregnancy day 7.5 (D7.5). The spatial transcriptomic annotation identified 11 domains of distinct gene signatures, including a mesometrial myometrium, an anti-mesometrial myometrium, a mesometrial decidua enriched with natural killer cells, a vascular sinus zone for maternal vessel remodeling, a fetal–maternal interface, a primary decidual zone, a transition decidual zone, a secondary decidual zone, undifferentiated stroma, uterine glands, and the embryo. The scRNA-Seq identified 12 types of cells in the D7.5 uterus including three types of stromal fibroblasts with differentiated and undifferentiated markers, one cluster of epithelium including luminal and glandular epithelium, mesothelium, endothelia, pericytes, myelomonocytic cell, natural killer cells, and lymphocyte B. These single-cell RNA signatures were then utilized to deconvolute the cell-type compositions of each individual uterine microenvironment. Functional annotation assays on spatial transcriptomic data revealed uterine microenvironments with distinguished metabolic preferences, immune responses, and various cellular behaviors that are regulated by region-specific endocrine and paracrine signals. Global interactome among regions is also projected based on the spatial transcriptomic data. This study provides high-resolution transcriptome profiles with locality information at the embryo implantation site to facilitate further investigations on molecular mechanisms for normal pregnancy progression.

Graphical Abstract

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Published by Oxford University Press on behalf of Society for the Study of Reproduction 2022. This work is written by US Government employees and is in the public domain in the US.
Rong Li, Tian-Yuan Wang, Xin Xu, Olivia M. Emery, MyeongJin Yi, San-Pin Wu, and Francesco J. DeMayo "Spatial transcriptomic profiles of mouse uterine microenvironments at pregnancy day 7.5," Biology of Reproduction 107(2), 529-545, (31 March 2022). https://doi.org/10.1093/biolre/ioac061
Received: 12 August 2021; Accepted: 30 March 2022; Published: 31 March 2022
KEYWORDS
decidua
microenvironment
postimplantation
scRNA-seq
spatial transcriptomics
uterus
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