Deciphering decidual deficiencies in recurrent spontaneous abortion and the therapeutic potential of mesenchymal stem cells at single-cell resolution

Recurrent spontaneous abortion (RSA) is a challenging condition that affects the health of women both physically and mentally, but its pathogenesis and treatment have yet to be studied in detail. In recent years, Wharton's jelly-derived mesenchymal stem cells (WJ-MSCs) have been shown to be eff...

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Published in:	Stem cell research & therapy Vol. 15; no. 1; pp. 228 - 16
Main Authors:	Jin, Beibei, Ding, Xiaoying, Dai, Jiamin, Peng, Chen, Zhu, Chunyu, Wei, Qinru, Chen, Xinyi, Qiang, Ronghui, Ding, Xiaoyi, Du, Hongxiang, Deng, Wenbo, Yang, Xiaoqing
Format:	Journal Article
Language:	English
Published:	England BioMed Central Ltd 29-07-2024 BioMed Central BMC
Subjects:	Abortion Abortion, Habitual - metabolism Abortion, Habitual - pathology Abortion, Habitual - therapy Analysis Animals Decidua Decidua - cytology Decidua - metabolism Disease Models, Animal Female Gene expression Genes Health aspects Humans Killer cells Mesenchymal Stem Cell Transplantation - methods Mesenchymal stem cells Mesenchymal Stem Cells - cytology Mesenchymal Stem Cells - metabolism Mice Miscarriage Pregnancy Pregnant women Recurrent spontaneous abortion RNA sequencing Single-cell Single-Cell Analysis Stem cells Wharton Jelly - cytology Women Recurrent spontaneous abortion Decidua Single-cell Mesenchymal stem cells
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Summary:	Recurrent spontaneous abortion (RSA) is a challenging condition that affects the health of women both physically and mentally, but its pathogenesis and treatment have yet to be studied in detail. In recent years, Wharton's jelly-derived mesenchymal stem cells (WJ-MSCs) have been shown to be effective in treating various diseases. Current understanding of RSA treatment using WJ-MSCs is limited, and the exact mechanisms of WJ-MSCs action in RSA remains largely unclear. In this study, we explored the decidual deficiencies in RSA and the therapeutic potential of WJ-MSCs at single-cell resolution. Three mouse models were established: a normal pregnancy group, an RSA group, and a WJ-MSC treatment group. Decidual tissue samples were collected for single-cell RNA sequencing (scRNA-seq) and functional verification, including single-cell resolution in situ hybridization on tissues (SCRINSHOT) and immunofluorescence. We generated a single-cell atlas of decidual tissues from normal pregnant, RSA, and WJ-MSC-treated mice and identified 14 cell clusters in the decidua on day 14. Among these cell populations, stromal cells were the most abundant cell clusters in the decidua, and we further identified three novel subclusters (Str_0, Str_1, and Str_2). We also demonstrated that the IL17 and TNF signaling pathways were enriched for upregulated DEGs of stromal cells in RSA mice. Intriguingly, cell-cell communication analysis revealed that Str_1 cell-related gene expression was greatly reduced in the RSA group and rescued in the WJ-MSC treatment group. Notably, the interaction between NK cells and other cells in the RSA group was attenuated, and the expression of Spp1 (identified as an endometrial toleration-related marker) was significantly reduced in the NK cells of the RSA group but could be restored by WJ-MSC treatment. Herein, we implemented scRNA-seq to systematically evaluate the cellular heterogeneity and transcriptional regulatory networks associated with RSA and its treatment with WJ-MSCs. These data revealed potential therapeutic targets of WJ-MSCs to remodel the decidual subpopulations in RSA and provided new insights into decidua-derived developmental defects at the maternal-foetal interface.
Bibliography:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
ISSN:	1757-6512 1757-6512
DOI:	10.1186/s13287-024-03854-6