Bipotent stem cells support the cyclical regeneration of endometrial epithelium of the murine uterus
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Bipotent stem cells residing in the mouse uterus are responsible for the cyclical regeneration of endometrial epithelium by generating all epithelial lineages after tissue loss.
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Abstract
The endometrial epithelium of the uterus regenerates periodically. The cellular source of newly regenerated endometrial epithelia during a mouse estrous cycle or a human menstrual cycle is presently unknown. Here, I have used single-cell lineage tracing in the whole mouse uterus to demonstrate that epithelial stem cells exist in the mouse uterus. These uterine epithelial stem cells provide a resident cellular supply that fuels endometrial epithelial regeneration. They are able to survive cyclical uterine tissue loss and persistently generate all endometrial epithelial lineages, including the functionally distinct luminal and glandular epithelia, to maintain uterine cycling. The uterine epithelial stem cell population also supports the regeneration of uterine endometrial epithelium post parturition. The 5-ethynyl-2'-deoxyuridine pulse-chase experiments further reveal that this stem cell population may reside in the intersection zone between luminal and glandular epithelial compartments. This tissue distribution allows these bipotent uterine epithelial stem cells to bidirectionally differentiate to maintain homeostasis and regeneration of mouse endometrial epithelium under physiological conditions. Thus, uterine function over the reproductive lifespan of a mouse relies on stem cell-maintained rhythmic endometrial regeneration.
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- Mechanisms of Regeneration and Fibrosis in the Endometrium 2023
- The Biological Characteristics of Eutopic and Ectopic EndometrialProgenitor Cells in Endometriosis 2023
- Histopathologic evaluation of the inflammatory factors and stromal cells in the endometriosis lesions: A case-control study 2022
- Endometrial stem/progenitor cells: Properties, origins, and functions 2022
- Faculty Opinions recommendation of The elusive endometrial epithelial stem/progenitor cells. 2021
- Mice Uterine Stem Cells are Affected by Neonatal Endocrine Disruption & Initiate Uteropathies in Adult Life Independent of Circulatory Ovarian Hormones 2021
- Endometrial stem/progenitor cells and their roles in immunity, clinical application, and endometriosis 2021
- Cyclical endometrial repair and regeneration 2021
- Characteristic and Regenerative Potential of Human Endometrial Stem Cells and Progenitors 2021
- Cellular Origins of Endometriosis: Towards Novel Diagnostics and Therapeutics 2020
- Tissue engineered endometrial barrier exposed to peristaltic flow shear stresses 2020
- Development of A 3D Tissue Slice Culture Model for the Study of Human Endometrial Repair and Regeneration 2020
- Establishment and characterization of cell lines from human endometrial epithelial and mesenchymal cells from patients with endometriosis 2020
- Menstruation: science and society 2020
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