[Fibrosis signaling in endometrial cells and endometriosis development]

Kazuya Kusama, Kazuhiro Tamura
Nihon yakurigaku zasshi. Folia pharmacologica Japonica · 2024 · vol. 159(6) , pp. 381–384 · doi:10.1254/fpj.24030 · PMID:39496412
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AI-generated summary by claude@2026-06, 2026-06-07

This study found that hypoxia-induced CXCL12/CXCR4 signaling and activin A/CTGF signaling in endometrial cells contribute to fibrosis and progression in endometriosis.

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The paper examines how fibrosis-related signaling contributes to endometriosis progression, focusing on low-oxygen conditions associated with menstrual blood and their effects on endometrial cells. Using primary cultured endometrial stromal and glandular epithelial cells, it reports that PGE2 and thrombin under hypoxia increase CXCL12 secretion from stromal cells, which then activates CXCR4 on epithelial cells to induce EMT, associated with pro-fibrotic and invasion-related phenotypes. The authors further use RNA-seq to show that PGE2/thrombin activate the TGFβ pathway, increasing activin A production, which raises CTGF and promotes differentiation of stromal cells toward a fibroblast-like to myofibroblast-like profibrotic state. Limitations are not explicitly detailed, but the mechanistic work is based on cell culture under controlled conditions rather than fully establishing causality in human disease. This paper is centrally about endometriosis — it dissects hypoxia-PGE2/thrombin-driven CXCL12/CXCR4 and activin A/CTGF signaling as drivers of fibrosis and disease progression in endometriosis models and endometrial cell systems.

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Abstract

In endometriosis, the tissues similar to the endometrial tissue attaches outside the uterine cavity, causing inflammation and fibrosis. The retrograde menstruation theory is the most plausible mechanism, though the detailed pathogenesis remains unclear. Our observations suggest that endometriosis-like lesions occur more often at sites of ovarian excision causing bleeding in mouse models. Additionally, prostaglandin E2 (PGE2) and thrombin, a protease-activated receptor (PAR) agonist in menstrual blood exacerbate inflammation in these lesions. Focusing on the hypoxic conditions of menstrual blood, we investigated the effects of PGE2/thrombin on inflammation and fibrosis using primary cultured endometrial stromal cells (ESCs) and glandular epithelial cells (EECs) under low oxygen conditions. Chemokine CXCL12 secreted by endometrial stromal cells under hypoxia acts on CXCR4 receptors on glandular epithelial cells, inducing epithelial-mesenchymal transition (EMT), suggesting a possible role in endometriosis progression. RNA-seq analysis of PGE2/thrombin effects on endometrial stromal cells revealed activation of the transforming growth factor (TGF)-β pathway, particularly increased production and secretion of activin A, a member of the TGFβ family. Activin A, via increased connective tissue growth factor (CTGF) expression, promotes differentiation of endometrial stromal cells from fibroblast-like to myofibroblast transdifferentiation (FMT) of ESCs. In conclusion, targeting the CXCL12/CXCR4 and activin A/CTGF signaling pathways holds promise for improving fibrosis in endometriosis lesions.
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特集 子宮内膜症の病態解明と画期的な新薬開発に向けた新たな視点 子宮内膜細胞の線維化シグナルと子宮内膜症の進展 2024 年 159 巻 6 号 p. 381-384 詳細 抄録 子宮内膜症では,何らかの原因で子宮内膜類似様の組織が子宮外の部位で生着,機能し,炎症や線維化を起こす.その発生機序として月経血の逆流説が最も有力である.しかしながら,詳細な病態メカニズムは明らかになっていない.我々は,子宮内膜症モデルマウス作成時の卵巣摘出部位(損傷出血部位)に子宮内膜症様病変が出現しやすいことを観察している.さらに,月経血中に含有される催炎症性因子であるプロスタグランジンE2(PGE2)とトロンビンが子宮内膜症様病変の炎症を悪化していることを示唆した.そこで,月経血中の子宮内膜片は低酸素状態にあるということに着目し,低酸素条件下におけるPGE2/トロンビンの炎症と線維化に対する効果について,初代培養子宮内膜間質および腺上皮細胞を用いて検討した.この条件下で子宮内膜間質細胞から分泌されるケモカインCXCL12は,低酸素下でのPGE2とトロンビン刺激によって腺上皮細胞で発現が上昇するCXCR4受容体に作用し,上皮間葉転換(EMT)を起こした.このEMT誘導により,子宮上皮細胞は線維化や細胞遊走・浸潤能の獲得を介して内膜症病態の進行に関わることを示唆した.次に,PGE2/トロンビンの子宮内膜間質細胞に対する効果をRNA-seqにて網羅的に解析したところ,PGE2/トロンビンがトランスフォーミング増殖因子(TGF)β経路を活性化し,特に,TGFβファミリーを構成するアクチビンAの産生と分泌が増加することを明らかにした.さらに,アクチビンAは結合組織増殖因子(CTGF)発現の上昇を介して,子宮内膜間質細胞の性質を線維芽様から線維化に特徴的な筋線維芽細胞様へと分化させることを示した.このように,CXCL12/CXCR4及びアクチビンA/CTGFシグナル系は,子宮内膜症病変における線維症の改善における標的として期待される. © 2024 公益社団法人 日本薬理学会

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endometriosis

MeSH descriptors

Endometriosis Endometriosis Endometriosis Endometriosis Endometriosis Endometriosis Endometriosis Endometriosis Endometriosis Endometriosis Endometriosis Endometriosis Endometriosis Endometriosis Endometriosis Endometriosis Endometriosis Endometriosis Endometrium Endometrium

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