Exposure to ethinyl estradiol prenatally and/or after sexual maturity induces endometriotic and precancerous lesions in uteri and ovaries of mice

Koike, Eiji; Yasuda, Yoshiko; Shiota, Mitsuru; Shimaoka, Masao; Tsuritani, Mitsuhiro; Konishi, Hiroyoshi; Yamasaki, Harufumi; Okumoto, Katsumi; Hoshiai, Hiroshi

doi:10.1111/j.1741-4520.2012.00383.x

Cited by 12 publications

(15 citation statements)

References 45 publications

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“…Mice also develop adenomyosis after treatment regimens with estrogenic compounds or progesterone (P4). 34,35 Neonatal treatment with tamoxifen, a selective estrogen receptor modulator (SERM), reliably produces adenomyotic lesions in mice, and this model has been used extensively for examining adenomyosis pathogenesis and drug screening. 1,36 Though limited in number, a few studies using genetically engineered mice have also reported adenomyosis development, providing insight into genetic abnormalities that may underlie adenomyosis development, such as increased β-catenin activation.…”

Section: Mouse Models Of Adenomyosismentioning

confidence: 99%

“…Reports have also demonstrated that adenomyosis develops after exposure to estrogenic agents prenatally or in adulthood either alone or in combination with P4. 9,34,35,[54][55][56] Furthermore, chemical pollutants with known estrogenic effects have demonstrated the ability to precipitate adenomyosis development after prenatal, neonatal, or even transgenerational exposure. 57,58 Overall, though it is clear that systemic exposure to various hormonal agents causes or enhances murine adenomyosis development, studies to date have not been detailed or consistent enough to determine the exact mechanism of the affect.…”

Section: Modelmentioning

confidence: 99%

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Animal Models of Adenomyosis

2020

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Adenomyosis is a nonmalignant uterine disorder in which endometrial tissue exists within and grows into the myometrium. Animal models have generated limited insight into the still-unclear pathogenesis of adenomyosis, provided a platform for preclinical screening of many drugs and compounds with potential as therapeutics, and elucidated mechanisms underlying the pain and fertility issues that occur in many women with the disease. Spontaneous adenomyosis has been studied in nonhuman primates, primarily in the form of case reports. Adenomyosis is routinely experimentally induced in mice through methods such as neonatal tamoxifen exposure, pituitary engraftment, and human tissue xenotransplantation. Several studies have also reported hormonal or environmental toxicant exposures that give rise to murine adenomyosis, and genetically engineered models have been created that recapitulate the human-like condition, most notably involving alteration of β-catenin expression. This review describes the animal models for adenomyosis and their contributions to our understanding of the factors underpinning the development of symptoms. Animal models represent a unique opportunity for understanding the molecular basis of adenomyosis and developing efficacious treatment options for affected women. Herein, we assess their different potentials and limitations with regard to identification of new therapeutic interventions and reflect on future directions for research and drug validation.

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Section: Mouse Models Of Adenomyosismentioning

confidence: 99%

Section: Modelmentioning

confidence: 99%

Animal Models of Adenomyosis

2020

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“…This study suggests that continuous EE2 exposure can promote the development of adenomyosis. Using a very different model, Otto et al ., [ 151 ] also demonstrated an important role of estrogen in the development of adenomyosis. This study examined the influence of the estrogen modulating compounds Faslodex and cetrorelix in SHN mice.…”

Section: Drivers Of Co-morbidities Associated With Endometriosismentioning

confidence: 99%

“…SHN mice have been found to develop adenomyosis after pituitary grafting, which leads to an altered endocrine profile. The GnRH antagonist cetrorelix and the estrogen receptor antagonist Faslodex, which negatively interfered with estrogen-mediated signaling, completely inhibited development of adenoymosis, whereas danazol, was slightly less effective in inhibiting disease in SHN mice [ 151 ].…”

Section: Drivers Of Co-morbidities Associated With Endometriosismentioning

confidence: 99%

Rodent Models of Experimental Endometriosis: Identifying Mechanisms of Disease and Therapeutic Targets

Bruner‐Tran

Mokshagundam

Herington

et al. 2018

CWHR

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Background: Although it has been more than a century since endometriosis was initially described in the literature, understanding the etiology and natural history of the disease has been challenging. However, the broad utility of murine and rat models of experimental endometriosis has enabled the elucidation of a number of potentially targetable processes which may otherwise promote this disease.Objective: To review a variety of studies utilizing rodent models of endometriosis to illustrate their utility in examining mechanisms associated with development and progression of this disease.Results: Use of rodent models of endometriosis has provided a much broader understanding of the risk factors for the initial development of endometriosis, the cellular pathology of the disease and the identification of potential therapeutic targets.Conclusion: Although there are limitations with any animal model, the variety of experimental endometriosis models that have been developed has enabled investigation into numerous aspects of this disease. Thanks to these models, our under-standing of the early processes of disease development, the role of steroid responsiveness, inflammatory processes and the peritoneal environment has been advanced. More recent models have begun to shed light on how epigenetic alterations con-tribute to the molecular basis of this disease as well as the multiple comorbidities which plague many patients. Continued de-velopments of animal models which aid in unraveling the mechanisms of endometriosis development provide the best oppor-tunity to identify therapeutic strategies to prevent or regress this enigmatic disease.

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“…28 Ethinyl estradiol is considered a category X medication in pregnancy because the administration of the drug is related to tumorigenesis and the development of reproductive organs. 27 Furthermore, Koike et al 29 explored the effects of EE2 in animals and found that prenatal exposure may increase the sizes of the endometriotic and precancerous lesions in the uteri and ovaries of mice. In their study, pregnant mice were administered oral EE2 between gestational days 11 and 17, and the offspring were euthanized at 28 weeks of age.…”

Section: Ethinyl Estradiol and Diethylstilbestrolmentioning

confidence: 99%