Effect of a Dienogest for an Experimental Three-dimensional Endometrial Culture Model for Endometriosis

Overview

Journal Med Mol Morphol

Publisher Springer

Specialties Cell Biology
Molecular Biology
Pathology

Date 2013 Oct 22

PMID 24141572

Citations 5

Authors

Japarath Prechapanich

Takeshi Kajihara

Keiko Fujita

Kazuko Sato

Satomi Uchino

Kayoko Tanaka

Sachiko Matsumoto

Masumi Akita

Masabumi Nagashima

Jan J Brosens

Osamu Ishihara

Affiliations

Soon will be listed here.

Abstract

The pathogenesis of endometriosis remains poorly understood at least in part because early stages of the disease process are difficult to investigate. Previous studies have proposed a three-dimensional fibrin matrix culture model to study human endometriosis. We examined the ultrastructural features of the endometriosis in this model and assessed the effect of a progestin on endometrial outgrowth and apoptosis in this culture system. Endometrial explants were placed in three-dimensional fibrin matrix culture and treated with and without various concentrations of the progestin dienogest. By the second week, endometrial gland-like formation was established in outgrowths both attached to and at a distance from the explants. These cells formed a combination of clumps and tubular monolayers surrounding a central cavity. Electron microscopy demonstrated that these cells are polarized with microvilli on the apical surface, desmosome-like structures, and basement membrane; features consistent with glandular epithelial cells. Outgrowth of endometrial stromal cells and glandular formation was impaired in response to dienogest in a dose-dependent manner. Our study shows that the human endometrial explants cultured in three-dimensional fibrin matrix establish outgrowths that ultrastructurally resemble ectopic endometrial implants. This model may provide insight into the cellular processes leading to endometriosis formation and enables screening of therapeutic compounds.

Citing Articles

Modelling Endometriosis Using In Vitro and In Vivo Systems.

Black V, Bafligil C, Greaves E, Zondervan K, Becker C, Hellner K Int J Mol Sci. 2025; 26(2).

PMID: 39859296 PMC: 11766166. DOI: 10.3390/ijms26020580.

Mining phase separation-related diagnostic biomarkers for endometriosis through WGCNA and multiple machine learning techniques: a retrospective and nomogram study.

Liang Q, Yang S, Mai M, Chen X, Zhu X J Assist Reprod Genet. 2024; 41(5):1433-1447.

PMID: 38456992 PMC: 11143086. DOI: 10.1007/s10815-024-03079-9.

Genome-Wide Gene Expression Profiling Reveals the Direct Effect of Dienogest on Ovarian Endometriotic Stromal Cells.

Honda H, Nishimichi N, Kaneko M, Yamashita M, Akimoto Y, Tanimoto H Reprod Sci. 2023; 30(8):2457-2467.

PMID: 36752987 PMC: 10354176. DOI: 10.1007/s43032-023-01181-4.

Strategies for modelling endometrial diseases.

Murphy A, Campo H, Kim J Nat Rev Endocrinol. 2022; 18(12):727-743.

PMID: 36050476 PMC: 10052865. DOI: 10.1038/s41574-022-00725-z.

models of human endometriosis.

Fan H Exp Ther Med. 2020; 19(3):1617-1625.

PMID: 32104212 PMC: 7027135. DOI: 10.3892/etm.2019.8363.

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