Lesion development is modulated by the natural estrous cycle and mouse strain in a minimally invasive model of endometriosis†
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This study found that a minimally invasive endometriosis model in naturally cycling mice showed increased lesion development in proestrus and with larger donor tissue amounts, with strain-specific differences in lesion type.
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Abstract
Many rodent models of endometriosis are invasive, involving surgery to implant donor endometrial tissue into recipient animals. Moreover, few studies have compared and contrasted lesions between rodent strains and estrous stages without exogenous hormone manipulation. This is despite extensive data demonstrating that genetic and hormonal factors can influence endometriosis progression. Here, we have refined a minimally invasive model of endometriosis using naturally cycling mice (donor and recipient matched for cycle phase) to investigate lesion development in two different strains (C57BL/6 and BALB/c), induced in estrous stages of high and low estrogen (proestrus or estrus, respectively), and with varying amounts of donor endometrial tissue (7.5-40 mg), injected intraperitoneally. The overall probability of developing endometriosis-like lesions was higher in proestrus than estrus, and increased with greater masses of donor tissue. Similarly, the total number of lesions (0-3) increased from 7.5 to 40 mg, and was significantly greater in proestrus C57BL/6 mice but not BALB/cs. The dominant lesion type also differed between mouse strains; C57BL/6 mice were more likely to develop dense-type lesions, whereas BALB/c mice developed a greater proportion of cystic type. These data further support a role for estrogen in the development of endometriosis, and that genetic variance can influence the degree and characteristics of lesions. Our minimally invasive model would be beneficial for studies with outcome measurements particularly sensitive to incisional injury, such as pain, or alterations to sex hormones, including fertility.
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Cited by (21)
- Luminescent mouse model of endometriosis: three-dimensional morphology of lesions and cytokine profiles 2025
- Induction of Endometriosis in a Menstruating Mouse Model (Mus musculus): A Translational Animal Disease Model 2025
- WERF Endometriosis Phenome and Biobanking Harmonisation Project for Experimental Models in Endometriosis Research (EPHect-EM-Pain): methods to assess pain behaviour in rodent models of endometriosis 2025
- Gut microbiome in patients with early-stage and late-stage endometriosis 2025
- Western diet promotes endometriotic lesion growth in mice and induces depletion of Akkermansia muciniphila in intestinal microbiota 2024
- Microbiome Impacts on Endometriosis 2024
- Investigating endometriosis development and endometriosis-related pain over time and in relation to estrogen in a laparoscopic mouse model 2024
- CCL18 promotes endometriosis by increasing endometrial cell migration and neuroangiogenesis 2024
- The uterine secretome initiates growth of gynecologic tissues in ectopic locations 2024
- Uterine secretome initiates growth of gynecologic tissues in ectopic locations 2023
- Optimizing a Translational Mouse Model of Endometriosis 2023
- Re-evaluation of mouse models of endometriosis for pathological and immunological research 2022
- Endometriosis in the Mouse: Challenges and Progress Toward a ‘Best Fit’ Murine Model 2022
- Murine Models of Endometriosis: A Systematic Review 2021
- Bioluminescent imaging in induced mouse models of endometriosis reveals differences in four model variations 2021
- Mimicking Sampson’s Retrograde Menstrual Theory in Rats: A New Rat Model for Ongoing Endometriosis-Associated Pain 2020
- Endometriosis-Associated Pain – Do Preclinical Rodent Models Provide a Good Platform for Translation? 2020
- Effect of miR-194-5p regulating STAT1/mTOR signaling pathway on the biological characteristics of ectopic endometrial cells from mice. 2020
- Endometrial cells contribute to preexisting endometriosis lesions in a mouse model of retrograde menstruation† 2019
- Interleukin-1/-33 Signaling Pathways as Therapeutic Targets for Endometriosis 2019
- Spinal Glial Adaptations Occur in a Minimally Invasive Mouse Model of Endometriosis: Potential Implications for Lesion Etiology and Persistent Pelvic Pain 2018
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