Rong Li Ph.D. , Dinh Nam Tran Ph.D. , Bruce A. Lessey M.D., Ph.D. , Steven L. Young M.D., Ph.D. , Tae Hoon Kim Ph.D. , Jae-Wook Jeong Ph.D.
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Fertile sham and mice with endometriosis were used 1 month after surgery, whereas subfertile ones were used 3 months after surgery.</p></div><div><h3>Interventions</h3><p>Early and chronic effects of endometriosis on transcriptomics of ectopic lesions and eutopic endometrium.</p></div><div><h3>Main Outcome Measures</h3><p>RNA-sequencing analysis and identification of differentially expressed genes and pathways in the ectopic lesions and eutopic uteri from mice with endometriosis and sham mice at day 3.5 of pregnancy.</p></div><div><h3>Results</h3><p>Our mouse model recapitulates the transcriptomic changes of ectopic lesions in humans. RNA-sequencing analysis was performed in ectopic lesions and eutopic uteri from mice with or without endometriosis during the progression of the disease. Estrogen activity, inflammation, angiogenesis, and fibrosis pathways were consistently elevated in all the ectopic lesions compared with eutopic endometrium. Cholesterol/glucose synthesis and stem cell pluripotency pathways were more enhanced in ectopic lesions from subfertile mice compared with their eutopic endometrium. Dysregulation of infiltration of macrophage, dendritic, T and B cells was validated with the use of immunohistochemistry in ectopic lesions. Multiple ligand–receptor pairs between the ectopic and eutopic endometrium were altered compared with the sham endometrium. Suppressed WNT and EGF pathways were only found in the eutopic endometrium from subfertile not fertile mice compared with sham.</p></div><div><h3>Conclusions</h3><p>Our mouse endometriosis model recapitulates the transcriptomics of ectopic lesions in humans. 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引用次数: 0
摘要
目的确定异位病灶和异位子宫内膜组织在子宫内膜异位症进展过程中的转录组变化:我们的假设是,子宫内膜异位症的发展和进展会改变异位内膜和异位病灶的转录组:学术医学中心四只可育和四只亚可育的 Pgrcre/+Rosa26mTmG/+ 子宫内膜异位症小鼠,每组子宫内膜异位症小鼠有四只假小鼠作为对照。这些小鼠要么接受了诱发子宫内膜异位症的手术,要么接受了假手术。肥育假小鼠和子宫内膜异位症小鼠在手术后一个月使用,亚肥育小鼠在手术后三个月使用:干预措施:子宫内膜异位症对异位病灶和异位内膜转录组学的早期和慢性影响:结果:我们的小鼠模型再现了子宫内膜异位症对异位病灶和异位子宫内膜转录组学的早期和慢性影响:我们的小鼠模型再现了人类异位病变的转录组变化。我们对患有或未患有子宫内膜异位症的小鼠异位病灶和异位子宫在疾病进展过程中的转录组变化进行了RNA-seq分析。与异位子宫内膜相比,所有异位病灶中的雌二醇、炎症、血管生成和纤维化通路都持续升高。与异位子宫内膜相比,亚肥育小鼠异位病灶中的胆固醇/葡萄糖合成和干细胞多能性途径更强。异位病灶中巨噬细胞、树突状细胞、T 细胞和 B 细胞的浸润失调通过免疫组化得到了验证。与假性子宫内膜相比,异位和异位子宫内膜的多种配体-受体对发生了改变。与假性内膜相比,仅在亚肥育而非肥育小鼠的异位内膜中发现了受抑制的 WNT 和 EGF 通路:我们的小鼠子宫内膜异位症模型再现了人类异位病变的转录组学。结论:我们的小鼠子宫内膜异位症模型再现了人类异位病变的转录组学,我们在小鼠模型中进行的子宫内膜异位症进展过程中的转录组学分析将有助于了解子宫内膜异位症的病理生理学。
Transcriptomic changes in eutopic endometrium and ectopic lesions during endometriosis progression in a mouse model
Objective
To identify the transcriptomic changes of ectopic lesions and eutopic endometrial tissues during the progression of endometriosis, we performed transcriptomic analysis in the eutopic endometrium and ectopic lesions.
Design
Laboratory study.
Setting
Academic medical center.
Animals
Four fertile and 4 subfertile Pgrcre/+Rosa26mTmG/+ mice with endometriosis, and 4 sham mice for each group of endometriosis mice as control. These mice underwent either surgery to induce endometriosis or sham surgery. Fertile sham and mice with endometriosis were used 1 month after surgery, whereas subfertile ones were used 3 months after surgery.
Interventions
Early and chronic effects of endometriosis on transcriptomics of ectopic lesions and eutopic endometrium.
Main Outcome Measures
RNA-sequencing analysis and identification of differentially expressed genes and pathways in the ectopic lesions and eutopic uteri from mice with endometriosis and sham mice at day 3.5 of pregnancy.
Results
Our mouse model recapitulates the transcriptomic changes of ectopic lesions in humans. RNA-sequencing analysis was performed in ectopic lesions and eutopic uteri from mice with or without endometriosis during the progression of the disease. Estrogen activity, inflammation, angiogenesis, and fibrosis pathways were consistently elevated in all the ectopic lesions compared with eutopic endometrium. Cholesterol/glucose synthesis and stem cell pluripotency pathways were more enhanced in ectopic lesions from subfertile mice compared with their eutopic endometrium. Dysregulation of infiltration of macrophage, dendritic, T and B cells was validated with the use of immunohistochemistry in ectopic lesions. Multiple ligand–receptor pairs between the ectopic and eutopic endometrium were altered compared with the sham endometrium. Suppressed WNT and EGF pathways were only found in the eutopic endometrium from subfertile not fertile mice compared with sham.
Conclusions
Our mouse endometriosis model recapitulates the transcriptomics of ectopic lesions in humans. Our transcriptomic analysis during endometriosis progression in our mouse model will help us understand the pathophysiology of endometriosis.