Granulocytes and Vascularization Regulate Uterine Bleeding and Tissue Remodeling in a Mouse Menstruation Model
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This study developed a mouse menstruation model to show that uterine granulocytes and vascularization are critical for regulating bleeding and tissue remodeling.
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Abstract
Menstruation-associated disorders negatively interfere with the quality of life of many women. However, mechanisms underlying pathogenesis of menstrual disorders remain poorly investigated up to date. Among others, this is based on a lack of appropriate pre-clinical animal models. We here employ a mouse menstruation model induced by priming mice with gonadal hormones and application of a physical stimulus into the uterus followed by progesterone removal. As in women, these events are accompanied by menstrual-like bleeding and tissue remodeling processes, i.e. disintegration of decidualized endometrium, as well as subsequent repair. We demonstrate that the onset of bleeding coincides with strong upregulation of inflammatory mediators and massive granulocyte influx into the uterus. Uterine granulocytes play a central role in regulating local tissue remodeling since depletion of these cells results in dysregulated expression of matrix modifying enzymes. As described here for the first time, uterine blood loss can be quantified by help of tampon-like cotton pads. Using this novel technique, we reveal that blood loss is strongly reduced upon inhibition of endometrial vascularization and thus, is a key regulator of menstrual bleeding. Taken together, we here identify angiogenesis and infiltrating granulocytes as critical determinants of uterine bleeding and tissue remodeling in a mouse menstruation model. Importantly, our study provides a technical and scientific basis allowing quantification of uterine blood loss in mice and thus, assessment of therapeutic intervention, proving great potential for future use in basic research and drug discovery.
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Cited by (15)
- A systems-based approach to uterine fibroids identifies differential splicing associated with abnormal uterine bleeding 2025
- Modelling menstruation in the common mouse: a narrative review 2025
- Meclizine improves endometrial repair and reduces simulated menstrual bleeding in mice with induced adenomyosis 2024
- A systems-based approach to uterine fibroids identifies differential splicing associated with abnormal uterine bleeding 2024
- Mechanisms of Scarless Repair at Time of Menstruation: Insights From Mouse Models 2022
- Decreased Glycolysis at Menstruation is Associated with Increased Menstrual Blood Loss 2022
- Mouse model of menstruation: An indispensable tool to investigate the mechanisms of menstruation and gynaecological diseases (Review) 2020
- Menstruation: science and society 2020
- Characteristics of the endometrium in menstruating species: lessons learned from the animal kingdom† 2020
- Mimicking Sampson’s Retrograde Menstrual Theory in Rats: A New Rat Model for Ongoing Endometriosis-Associated Pain 2020
- Physiology of the Endometrium and Regulation of Menstruation 2020
- Optimization of Endometrial Decidualization in the Menstruating Mouse Model for Preclinical Endometriosis Research 2018
- The functional expression of transient receptor potential channels in the mouse endometrium 2016
- Menstrual physiology: implications for endometrial pathology and beyond 2015
- Evidence from a Mouse Model That Epithelial Cell Migration and Mesenchymal-Epithelial Transition Contribute to Rapid Restoration of Uterine Tissue Integrity during Menstruation 2014
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