Magda Marečková, Luz Garcia-Alonso, Marie Moullet, Valentina Lorenzi, Robert Petryszak, Carmen Sancho-Serra, Agnes Oszlanczi, Cecilia Icoresi Mazzeo, Frederick C. K. Wong, Iva Kelava, Sophie Hoffman, Michał Krassowski, Kurtis Garbutt, Kezia Gaitskell, Slaveya Yancheva, Ee Von Woon, Victoria Male, Ingrid Granne, Karin Hellner, Krishnaa T. Mahbubani, Kourosh Saeb-Parsy, Mohammad Lotfollahi, Elena Prigmore, Jennifer Southcombe, Rebecca A. Dragovic, Christian M. Becker, Krina T. Zondervan, Roser Vento-Tormo
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We introduce the Human Endometrial Cell Atlas (HECA), a high-resolution single-cell reference atlas (313,527 cells) combining published and new endometrial single-cell transcriptomics datasets of 63 women with and without endometriosis. HECA assigns consensus and identifies previously unreported cell types, mapped in situ using spatial transcriptomics and validated using a new independent single-nuclei dataset (312,246 nuclei, 63 donors). In the functionalis, we identify intricate stromal–epithelial cell coordination via transforming growth factor beta (TGFβ) signaling. In the basalis, we define signaling between fibroblasts and an epithelial population expressing progenitor markers. Integration of HECA with large-scale endometriosis genome-wide association study data pinpoints decidualized stromal cells and macrophages as most likely dysregulated in endometriosis. The HECA is a valuable resource for studying endometrial physiology and disorders, and for guiding microphysiological in vitro systems development. The Human Endometrial Cell Atlas integrates single-cell transcriptomic datasets from women with and without endometriosis. Novel and known cell types are registered using spatial transcriptomics to provide a comprehensive map of the human endometrium in controls and endometriosis cases.","PeriodicalId":18985,"journal":{"name":"Nature genetics","volume":"56 9","pages":"1925-1937"},"PeriodicalIF":31.7000,"publicationDate":"2024-08-28","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.nature.com/articles/s41588-024-01873-w.pdf","citationCount":"0","resultStr":"{\"title\":\"An integrated single-cell reference atlas of the human endometrium\",\"authors\":\"Magda Marečková, Luz Garcia-Alonso, Marie Moullet, Valentina Lorenzi, Robert Petryszak, Carmen Sancho-Serra, Agnes Oszlanczi, Cecilia Icoresi Mazzeo, Frederick C. K. Wong, Iva Kelava, Sophie Hoffman, Michał Krassowski, Kurtis Garbutt, Kezia Gaitskell, Slaveya Yancheva, Ee Von Woon, Victoria Male, Ingrid Granne, Karin Hellner, Krishnaa T. 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An integrated single-cell reference atlas of the human endometrium
The complex and dynamic cellular composition of the human endometrium remains poorly understood. Previous endometrial single-cell atlases profiled few donors and lacked consensus in defining cell types. We introduce the Human Endometrial Cell Atlas (HECA), a high-resolution single-cell reference atlas (313,527 cells) combining published and new endometrial single-cell transcriptomics datasets of 63 women with and without endometriosis. HECA assigns consensus and identifies previously unreported cell types, mapped in situ using spatial transcriptomics and validated using a new independent single-nuclei dataset (312,246 nuclei, 63 donors). In the functionalis, we identify intricate stromal–epithelial cell coordination via transforming growth factor beta (TGFβ) signaling. In the basalis, we define signaling between fibroblasts and an epithelial population expressing progenitor markers. Integration of HECA with large-scale endometriosis genome-wide association study data pinpoints decidualized stromal cells and macrophages as most likely dysregulated in endometriosis. The HECA is a valuable resource for studying endometrial physiology and disorders, and for guiding microphysiological in vitro systems development. The Human Endometrial Cell Atlas integrates single-cell transcriptomic datasets from women with and without endometriosis. Novel and known cell types are registered using spatial transcriptomics to provide a comprehensive map of the human endometrium in controls and endometriosis cases.
期刊介绍:
Nature Genetics publishes the very highest quality research in genetics. It encompasses genetic and functional genomic studies on human and plant traits and on other model organisms. Current emphasis is on the genetic basis for common and complex diseases and on the functional mechanism, architecture and evolution of gene networks, studied by experimental perturbation.
Integrative genetic topics comprise, but are not limited to:
-Genes in the pathology of human disease
-Molecular analysis of simple and complex genetic traits
-Cancer genetics
-Agricultural genomics
-Developmental genetics
-Regulatory variation in gene expression
-Strategies and technologies for extracting function from genomic data
-Pharmacological genomics
-Genome evolution