4-乙烯基环己烯二环氧化物小鼠模型中的围绝经期和绝经期乳腺

IF 3 4区 医学 Q2 ENDOCRINOLOGY & METABOLISM Journal of Mammary Gland Biology and Neoplasia Pub Date : 2024-07-17 DOI:10.1007/s10911-024-09569-x
Kohei Saeki, Desiree Ha, Gregory Chang, Hitomi Mori, Ryohei Yoshitake, Xiwei Wu, Jinhui Wang, Yuan-Zhong Wang, Xiaoqiang Wang, Tony Tzeng, Hyun Jeong Shim, Susan L Neuhausen, Shiuan Chen
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摘要

围绝经期和绝经期是公认的乳腺癌发生的关键易感期,因此有必要开发一种与生理相关的模型。传统的卵巢切除术模型会导致卵巢分泌的全部激素被瞬间清除,这并不能准确地接近人类自然更年期的渐进过渡。在此,我们对4-乙烯基环己烯二环氧化物(VCD)处理的动物在不同时间点的乳腺进行了表征,发现该模型可提供围绝经期和绝经期两种状态的乳腺。围绝经期乳腺的导管结构出现中度退化,对外部激素无反应,而绝经期乳腺则出现严重退化,对激素过敏。根据 VCD 模型的研究结果,研究人员采用低剂量、慢性(环境)和高剂量、亚急性(实验)两种暴露模式,研究了一种主要的内分泌干扰物(多溴联苯醚)在绝经过渡期和绝经后对乳腺的影响。所有接触多溴联苯醚的条件都不会增强或损害因绝经过渡期和/或激素治疗而导致的宏观导管重组。单细胞 RNA 测序显示,绝经后实验性接触多溴联苯醚会导致非上皮细胞发生特定的转录组变化,如成纤维细胞中 Errfi1 的上调。环境中的多溴联苯醚暴露也导致了类似的转录组变化,但程度较轻。总之,VCD 小鼠模型为乳腺癌研究界提供了围绝经期和绝经期易感性窗口。包括所有测试模型在内的多溴联苯醚可能会影响绝经后的腺体,包括对非上皮细胞的影响。
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Perimenopausal and Menopausal Mammary Glands In A 4-Vinylcyclohexene Diepoxide Mouse Model.

As both perimenopausal and menopausal periods are recognized critical windows of susceptibility for breast carcinogenesis, development of a physiologically relevant model has been warranted. The traditional ovariectomy model causes instant removal of the entire hormonal repertoire produced by the ovary, which does not accurately approximate human natural menopause with gradual transition. Here, we characterized the mammary glands of 4-vinylcyclohexene diepoxide (VCD)-treated animals at different time points, revealing that the model can provide the mammary glands with both perimenopausal and menopausal states. The perimenopausal gland showed moderate regression in ductal structure with no responsiveness to external hormones, while the menopausal gland showed severe regression with hypersensitivity to hormones. Leveraging the findings on the VCD model, effects of a major endocrine disruptor (polybrominated diphenyl ethers, PBDEs) on the mammary gland were examined during and after menopausal transition, with the two exposure modes; low-dose, chronic (environmental) and high-dose, subacute (experimental). All conditions of PBDE exposure did not augment or compromise the macroscopic ductal reorganization resulting from menopausal transition and/or hormonal treatments. Single-cell RNA sequencing revealed that the experimental PBDE exposure during the post-menopausal period caused specific transcriptomic changes in the non-epithelial compartment such as Errfi1 upregulation in fibroblasts. The environmental PBDE exposure resulted in similar transcriptomic changes to a lesser extent. In summary, the VCD mouse model provides both perimenopausal and menopausal windows of susceptibility for the breast cancer research community. PBDEs, including all tested models, may affect the post-menopausal gland including impacts on the non-epithelial compartments.

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来源期刊
Journal of Mammary Gland Biology and Neoplasia
Journal of Mammary Gland Biology and Neoplasia 医学-内分泌学与代谢
CiteScore
5.30
自引率
4.00%
发文量
22
期刊介绍: Journal of Mammary Gland Biology and Neoplasia is the leading Journal in the field of mammary gland biology that provides researchers within and outside the field of mammary gland biology with an integrated source of information pertaining to the development, function, and pathology of the mammary gland and its function. Commencing in 2015, the Journal will begin receiving and publishing a combination of reviews and original, peer-reviewed research. The Journal covers all topics related to the field of mammary gland biology, including mammary development, breast cancer biology, lactation, and milk composition and quality. The environmental, endocrine, nutritional, and molecular factors regulating these processes is covered, including from a comparative biology perspective.
期刊最新文献
Gestational breast cancer: distinctive molecular and clinico-epidemiological features. Intramammary Labeling of Epithelial Cell Division. Immune Cell Contribution to Mammary Gland Development. Perimenopausal and Menopausal Mammary Glands In A 4-Vinylcyclohexene Diepoxide Mouse Model. State of the Art Modelling of the Breast Cancer Metastatic Microenvironment: Where Are We?
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