Additional file 1 of Gene expression profiles separate endometriosis lesion subtypes and indicate a sensitivity of endometrioma to estrogen suppressive treatments through elevated ESR2 expression

Marla, Sushma; Mortlock, Sally; Heinosalo, Taija; Poutanen, Matti; Montgomery, Grant W.; McKinnon, Brett David

doi:10.6084/m9.figshare.26644399.v1

Additional file 1 of Gene expression profiles separate endometriosis lesion subtypes and indicate a sensitivity of endometrioma to estrogen suppressive treatments through elevated ESR2 expression

Marla, Sushma, Mortlock, Sally, Heinosalo, Taija, Poutanen, Matti, Montgomery, Grant W., McKinnon, Brett David

2024 · doi:10.6084/m9.figshare.26644399.v1 · W6977136771

article OA: green CC0

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⚙ AI-generated summary by claude@2026-06, 2026-06-08 ⓘ

Gene expression profiles distinguish endometriosis subtypes and suggest endometriomas are sensitive to estrogen-suppressing treatments due to elevated ESR2 expression.

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Abstract

Additional file 1: Table S1. Hormonal treatment taken by the women within 3 months prior to surgery. Table S2. Top 30 genes (from total of 142 following Bonferroni correction p<3.54x10-06) that were significantly different between proliferative and secretory phases of samples obtained from patient endometrium. Table S3. Genes that were significantly differentially expressed (following Bonferroni correction p<3.41x10-06) between proliferative and medicated samples obtained from patient endometrium. Table S4. Genes that were significantly different (following FDR correction) between secretory and medicated samples obtained from patient endometrium. Table S5. Top 50 genes that were significantly differently expressed (following FDR correction) between DIE and SUP samples. Table S6. Top 50 genes that were significantly differently expressed (following Bonferroni and FDR correction) between OMA and SUP samples. Table S7. Top 50 genes that were significantly differently expressed (following Bonferroni and FDR correction) between OMA and DIE samples. Table S8. Top 100 genes that were significantly (nominal p<0.05) different between medicated and non-medicated samples in OMA. Table S9. Top 100 genes that were significantly (nominal p<0.05)) different between medicated and non-medicated samples in SUP. Table S10. Top 100 genes that were significantly (nominal p<0.05)) different between medicated and non-medicated samples in DIE.

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Condition tags

endometriosisdie_deep_infiltratingendometrioma

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Associated ovarian endometrioma is a marker for greater severity of deeply infiltrating endometriosis via openalex
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License: CC0 · commercial use OK

[1] Androgens, oestrogens and endometrium: a fine balance between perfection and pathology via openalex

[2] A relational database to identify differentially expressed genes in the endometrium and endometriosis lesions via openalex

[3] Associated ovarian endometrioma is a marker for greater severity of deeply infiltrating endometriosis via openalex

[4] Bufalin suppresses endometriosis progression by inducing pyroptosis and apoptosis via openalex

[5] Clinical Evaluation of the Oral Gonadotropin-Releasing Hormone-Antagonist Elagolix for the Management of Endometriosis-Associated Pain via openalex

[6] Current and Emerging Therapeutics for the Management of Endometriosis via openalex

[7] Dual suppression of estrogenic and inflammatory activities for targeting of endometriosis via openalex

[8] Endometrial and Endometriotic Concentrations of Estrone and Estradiol Are Determined by Local Metabolism Rather than Circulating Levels via openalex

[9] Endometriosis and nuclear receptors via openalex

[10] Endometriosis classification, staging and reporting systems: a review on the road to a universally accepted endometriosis classification, via openalex

[11] Endometriosis recurrence following post-operative hormonal suppression: a systematic review and meta-analysis via openalex

[12] ERβ- and Prostaglandin E2-Regulated Pathways Integrate Cell Proliferation via Ras-like and Estrogen-Regulated Growth Inhibitor in Endometriosis via openalex

[13] Estrogen Receptor (ER) β Regulates ERα Expression in Stromal Cells Derived from Ovarian Endometriosis via openalex

[14] Estrogen Receptor β Modulates Apoptosis Complexes and the Inflammasome to Drive the Pathogenesis of Endometriosis via openalex

[15] Expression of estrogen receptor alpha and beta in peritoneal and ovarian endometriosis via openalex

[16] Expression of oestrogen receptor-alpha and -beta in ovarian endometriomata via openalex

[17] Genetic Regulation of Transcription in the Endometrium in Health and Disease via openalex

[18] Human Endometriosis Tissue Microarray Reveals Site-specific Expression of Estrogen Receptors, Progesterone Receptor, and Ki67 via openalex

[19] Incidence, treatment and recurrence of endometriosis in a UK-based population analysis using data from The Health Improvement Network and the Hospital Episode Statistics database via openalex

[20] Inflammation influences steroid hormone receptors targeted by progestins in endometrial stromal cells from women with endometriosis via openalex

[21] On-label and off-label drug use in the treatment of endometriosis via openalex

[22] Progestin suppressed inflammation and cell viability of tumor necrosis factor‐α‐stimulated endometriotic stromal cells via openalex

[23] Promoter Methylation Regulates Estrogen Receptor 2 in Human Endometrium and Endometriosis1 via openalex

[24] Recurrence Patterns after Surgery in Patients with Different Endometriosis Subtypes: A Long-Term Hospital-Based Cohort Study via openalex

[25] Secreted frizzled-related protein 2 (SFRP2) expression promotes lesion proliferation via canonical WNT signaling and indicates lesion borders in extraovarian endometriosis via openalex

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