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Literature DB >> 31633678

Generation of Multicellular Human Primary Endometrial Organoids.

Alina R Murphy¹, Teerawat Wiwatpanit², Zhenxiao Lu¹, Batzaya Davaadelger¹, J Julie Kim³.

Abstract

The human endometrium is one of the most hormonally responsive tissues in the body and is essential for the establishment of pregnancy. This tissue can also become diseased and cause morbidity and even death. Model systems to study human endometrial biology have been limited to in vitro culture systems of single cell types. In addition, the epithelial cells, one of the major cell types of the endometrium, do not propagate well or retain their physiological traits in culture, and thus our understanding of endometrial biology remains limited. We have generated, for the first time, endometrial organoids that consist of both epithelial and stromal cells of the human endometrium. These organoids do not require any exogenous scaffold materials and specifically organize so that epithelial cells encompass the spheroid-like structure and become polarized with stromal cells in the center that produce and secrete collagen. Estrogen, progesterone and androgen receptors are expressed in the epithelial and stromal cells and treatment with physiological levels of estrogen and testosterone promote the organization of the organoids. This new model system can be used to study normal endometrial biology and disease in ways that were not possible before.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2019 PMID： 31633678 PMCID： PMC7255389 DOI： 10.3791/60384

Source DB: PubMed Journal: J Vis Exp ISSN： 1940-087X Impact factor: 1.355

11 in total

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Review 4. Cyclic decidualization of the human endometrium in reproductive health and failure.

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Review 7. Decidualization of the human endometrium: mechanisms, functions, and clinical perspectives.

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8. Dynamics of serum testosterone during the menstrual cycle evaluated by daily measurements with an ID-LC-MS/MS method and a 2nd generation automated immunoassay.

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Review 9. Progesterone action in endometrial cancer, endometriosis, uterine fibroids, and breast cancer.

Authors: J Julie Kim; Takeshi Kurita; Serdar E Bulun
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10. Scaffold-Free Endometrial Organoids Respond to Excess Androgens Associated With Polycystic Ovarian Syndrome.

Authors: Teerawat Wiwatpanit; Alina R Murphy; Zhenxiao Lu; Margrit Urbanek; Joanna E Burdette; Teresa K Woodruff; J Julie Kim
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Review 2. Advancements in Microfluidic Systems for the Study of Female Reproductive Biology.

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Review 3. Menstruation: science and society.

Authors: Hilary O D Critchley; Elnur Babayev; Serdar E Bulun; Sandy Clark; Iolanda Garcia-Grau; Peter K Gregersen; Aoife Kilcoyne; Ji-Yong Julie Kim; Missy Lavender; Erica E Marsh; Kristen A Matteson; Jacqueline A Maybin; Christine N Metz; Inmaculada Moreno; Kami Silk; Marni Sommer; Carlos Simon; Ridhi Tariyal; Hugh S Taylor; Günter P Wagner; Linda G Griffith
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