Aberrant PTEN expression in response to progesterone reduces endometriotic stromal cell apoptosis
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⤵ 13 in-corpus citations
AI-generated summary
Progesterone enhances PTEN expression, autophagy, and apoptosis in normal endometrial cells, but not in endometriotic cells where aberrant PTEN expression dysregulates autophagy and reduces apoptosis.
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Abstract
In some human cancer cells, PTEN (phosphatase and tensin homolog deleted on chromosome 10) is known to regulate autophagy induction positively through the inhibition of PI3K/AKT pathway, leading to the activation of mTOR, a major negative regulator of autophagy. Recent studies reported that PTEN expression is abnormally decreased in endometriotic lesions. In endometriosis, abnormal PTEN expression may contribute to the alteration of endometrial cell autophagy, which may affect apoptosis because endometrial cell autophagy is directly involved in the regulation of apoptosis. To test this hypothesis, we evaluated the involvement of PTEN in the regulation of autophagy induction in human normal endometrial stromal cells (NESCs). In addition, we sought to determine whether aberrant PTEN expression in endometriotic cyst stromal cells (ECSCs) is associated with autophagy dysregulation, and a subsequent decrease in apoptosis. Our results show that PTEN expression was enhanced by progesterone treatment in NESCs. Subsequently, autophagy and apoptosis induction increased through the inhibition of AKT and mTOR activity. This progesterone-induced increase in apoptosis was reversed by the inhibition of autophagy induction using either mifepristone (progesterone receptor modulator) or PTEN inhibitor. In contrast, progesterone had no significant effects on PTEN expression, AKT, mTOR activity, autophagy or apoptosis in ECSCs. Furthermore, in contrast to normal eutopic endometrium, endometriotic tissues have constant PTEN expression, autophagy and apoptosis throughout the menstrual cycle. In conclusion, our results suggest abnormal PTEN expression in response to progesterone was observed in ECSCs, which led to the dysregulation of autophagy induction via AKT/mTOR signalling and a subsequent decrease in apoptosis.
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Cited by (13)
- Controversial Roles of Autophagy in Adenomyosis and Its Implications for Fertility Outcomes—A Systematic Review 2024
- The “Road” to Malignant Transformation from Endometriosis to Endometriosis-Associated Ovarian Cancers (EAOCs): An mTOR-Centred Review 2024
- Endometriosis – hormones and treatment 2024
- Research advances in endometriosis-related signaling pathways: A review 2023
- Inhibition of the NLRP3 inflammasome by progesterone is attenuated by abnormal autophagy induction in endometriotic cyst stromal cells: implications for endometriosis 2022
- RETRACTED: Overexpressed miR-106b-5p promotes epithelial-mesenchymal transition in endometriosis by targeting PTEN 2022
- Downregulation of circ_0000673 Promotes Cell Proliferation and Migration in Endometriosis via the Mir-616-3p/PTEN Axis 2021
- Pharmaceuticals targeting signaling pathways of endometriosis as potential new medical treatment: A review 2021
- Downregulation of Circ_0000673 Promotes Cell Proliferation and Migration in Endometriosis Via Suppressing PTEN 2021
- microRNA-141 inhibits TGF-β1-induced epithelial-to-mesenchymal transition through inhibition of the TGF-β1/SMAD2 signalling pathway in endometriosis 2020
- Progesterone receptor ligands for the treatment of endometriosis: the mechanisms behind therapeutic success and failure 2020
- Involvement of endoplasmic reticulum stress in regulation of endometrial stromal cell invasiveness: possible role in pathogenesis of endometriosis 2019
- Scutellarin Suppresses Platelet Aggregation and Stalls Lesional Progression in Mouse With Induced Endometriosis 2018
SciLite annotations
chemicals 6
progesterone
progesterone
progesterone
mifepristone
progesterone
progesterone
organisms 2
human
human
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