Structural changes in endometrial basal glands during menstruation
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During menstruation, endometrial basal glands undergo apoptosis and macrophage-mediated removal of old cells, followed by rapid replacement with new glands derived from differentiating stromal cells without mitotic division.
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Abstract
OBJECTIVE: To prospectively observe the changes occurring in endometrial glandular morphology during menstrual shedding and regeneration. DESIGN: Prospective observational study. SETTING: The academic gynaecological endoscopy unit of a university teaching hospital. Population Thirteen patients investigated for a variety of benign, non-infective gynaecological disorders during the active bleeding phase of the menstrual cycle. METHODS: The morphological appearances of concurrent histological and scanning electron microscopic images of endometrium taken at different stages of the active bleeding phase of menstruation were studied and correlated with the simultaneous immunohistochemical expression of the Ki-67 proliferation marker and the CD68 marker of macrophage activity. MAIN OUTCOME MEASURE: Change in morphology of endometrial glands at various stages of menstruation. RESULTS: Endometrial glands within the basalis show evidence of apoptosis and associated macrophage activity immediately before and during menstruation. There is subsequent destruction and removal of old secretory glandular epithelial elements, and rapid replacement with new narrow glands lined with small epithelial cells. There is no evidence of mitotic cell division or expression of Ki-67 in the glandular cells during this replacement process, but there is evidence of marked macrophage activity prior to glandular cell loss. CONCLUSIONS: Early endometrial epithelial repair after menstruation is not a consequence of mitotic cell division. It occurs without evidence of Ki-67 expression. There is structural evidence of programmed cell death and intense macrophage activity associated with glandular remodelling. Dead epithelial cells are shed from the glands and accumulate within the endometrial cavity to be replaced by new small epithelial cells that appear to arise by differentiation of the surrounding stromal cells. We propose that these stromal cells are endometrial progenitor/stem cells.
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Cited by (30)
- Endometrial regeneration and the role of the extracellular matrix: mechanisms, challenges, and future perspectives 2025
- An integrated single-cell reference atlas of the human endometrium 2024
- Interleukin 6 at menstruation promotes the proliferation and self-renewal of endometrial mesenchymal stromal/stem cells through the WNT/β-catenin signaling pathway 2024
- The composition of menstrual fluid, its applications, and recent advances to understand the endometrial environment: a narrative review 2024
- Mechanisms of Regeneration and Fibrosis in the Endometrium 2023
- An integrated single-cell reference atlas of the human endometrium 2023
- Molecular Basis of Endometriosis and Endometrial Cancer: Current Knowledge and Future Perspectives 2021
- Faculty Opinions recommendation of The elusive endometrial epithelial stem/progenitor cells. 2021
- Macrophages in endometriosis 2021
- Three-dimensional understanding of the morphological complexity of the human uterine endometrium 2021
- Endometriosis: The Role of Iron Overload and Ferroptosis 2020
- Physiology of the Endometrium and Regulation of Menstruation 2020
- Epithelial-mesenchimal transition and its relationship with leaky gut syndrome as possible step in pathogenesis of endometriosis 2020
- Endometriosis-Associated Macrophages: Origin, Phenotype, and Function 2020
- Three-dimensional understanding of the morphological complexity of the human uterine endometrium 2020
- Menstruation: science and society 2020
- Endometrial stem/progenitor cells and their role in the pathogenesis of endometriosis 2018
- Endometrial Intracrinology: Oestrogens, Androgens and Endometrial Disorders 2018
- Physiological and pathological implications of retinoid action in the endometrium 2018
- Characterization of human-like menstruation in the spiny mouse: comparative studies with the human and induced mouse model 2018
- Endometrial Intracrinology: Oestrogens, Androgens and Endometrial Disorders 2018
- Co‐culture with macrophages enhances the clonogenic and invasion activity of endometriotic stromal cells 2017
- Platelets are a possible regulator of human endometrial re‐epithelialization during menstruation 2016
- Stem/Progenitor Cells in the Human Endometrium 2016
- Endometrial stem/progenitor cells 2014
- Evidence from a Mouse Model That Epithelial Cell Migration and Mesenchymal-Epithelial Transition Contribute to Rapid Restoration of Uterine Tissue Integrity during Menstruation 2014
- The effect of macrophages on fibroblast activity and lesion development in mouse models of endometriosis. 2014
- Hypoxia is not required for human endometrial breakdown or repair in a xenograft model of menstruation 2013
- Endometrial regeneration and endometrial stem/progenitor cells 2012
- The importance of the macrophage within the human endometrium 2012
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