Integrative analysis of transcriptomic and metabolomic profiles reveals abnormal phosphatidylinositol metabolism in follicles from endometriosis‐associated infertility patients
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This study integrated transcriptomic and metabolomic data from mouse models and human patients to reveal altered phosphatidylinositol and lysophosphatidylinositol metabolism in endometriosis-associated infertility, with LPI potentially reversing oxidative stress in granulosa cells.
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Abstract
Endometriosis is a common gynecological disorder that causes female infertility. Our recent research found that excessive oxidative stress in ovaries of endometriosis patients induced senescence of cumulus granulosa cells. Here, we analyzed the transcriptomic and metabolomics profiles of follicles in a mouse model of endometriosis and in patients with endometriosis and investigated the potential function of changed metabolites in granulosa cells. RNA-sequencing indicated that both endometriosis lesions and oxidative stress in mice induced abnormalities of reactive oxidative stress, steroid hormone biosynthesis, and lipid metabolism. The mouse model and women with endometriosis showed altered lipid metabolism. Nontargeted metabolite profiling of follicular fluid from endometriosis and male-factor infertility patients by liquid chromatography mass spectrometry identified 55 upregulated and 67 downregulated metabolites. These differential metabolites were mainly involved in steroid hormone biosynthesis and glycerophospholipid metabolism. Phosphatidylinositol (PI 16:0/18:2) was significantly elevated in follicular fluid from endometriosis patients compared with controls (p < 0.05), while lysophosphatidylinositol (LPI 18:2, 20:2, 18:1, 20:3 and 18:3) was reduced (p < 0.05). Upregulated PI and downregulated LPI correlated with oocyte retrieval number and mature oocyte number. LPI inhibited cellular reactive oxidative stress induced by hemin in granulosa cells. Cell proliferation inhibition, senescence, and apoptosis induced by hemin were partially reversed by LPI. Moreover, LPI administration rescued hemin blocking of cumulus-oocyte complex expansion and stimulated expression of ovulation-related genes. Transcriptomic Switching mechanism at 5' end of the RNA transcript sequencing and western blot revealed that LPI effects on granulosa cells were associated with its regulation of MAPK-ERK1/2 signaling, which was suppressed in the presence of hemin. In conclusion, our results revealed the dysregulation of lipid metabolism in endometriotic follicles. LPI may represent a novel agent for in vitro follicular culture that reverses the excessive oxidative stress from endometriotic lesions. © 2023 The Authors. The Journal of Pathology published by John Wiley & Sons Ltd on behalf of The Pathological Society of Great Britain and Ireland.
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Cited by (13)
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- Integrative microbiome-metabolomics identifies Pseudomonas as a potential pathogenic factor in endometriosis 2025
- Genome-Wide Association Studies (GWAS) in Endometriosis: Genetic Mechanisms and Comorbidity 2025
- Causal links and mediating effects of lipid metabolism, immune cells, and inflammatory proteins in endometriosis: Evidence from Mendelian randomization 2025
- Identification of fatty acid metabolism hub genes in endometriosis using integrative bioinformatics analysis 2025
- EETs Reduction Contributes to Granulosa Cell Senescence and Endometriosis‐Associated Infertility via the PI3K/AKT/mTOR Signaling Pathway 2025
- Regulated Cell Death in Endometriosis 2024
- Unraveling the significance of AGPAT4 for the pathogenesis of endometriosis via a multi-omics approach 2024
- Identifying Potential Bioactive Components and Targets of Shaofuzhuyu Decoction in Treating Endometriosis Using serum Pharmacochemistry and Network Pharmacology 2024
- Oxidative stress, ferroptosis, somatic mutations, antioxidant therapy, and endometriosis: a new perspective on the issue 2024
- Metabolomic biomarkers of endometriosis: A systematic review 2024
- Oxidative Imbalance in Endometriosis-Related Infertility—The Therapeutic Role of Antioxidants 2024
- The Pathological Role of miRNAs in Endometriosis 2023
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