In silico,in vitroandin vivoanalysis identifies a potential role for steroid hormone regulation of FOXD3 in endometriosis-associated genes

D Mathew, Daniel J. Mathew, J A Drury, Josephine Drury, A J Valentijn, Anthony Valentijn, Olga Vasieva, O Vasieva, D K Hapangama, Dharani K. Hapangama
Human Reproduction · 2015 · vol. 31(2) , pp. dev307 · doi:10.1093/humrep/dev307 · PMID:26705148 · W2297375348
article OA: bronze CC0 ⤵ 13 in-corpus citations
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AI-generated summary by claude@2026-06, 2026-06-09

Bioinformatics analysis identified FOXD3 as a key regulator of secretory phase genes, with its expression decreasing in decidualized cells and being reduced by progestagen treatment in endometriosis.

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Abstract

STUDY QUESTION: Can bioinformatics analysis of publically available microarray datasets be utilized in identifying potentially important transcription factors (TF) in the hormonal regulation of the endometrium? SUMMARY ANSWER: Systems integration and analysis of existing complex (published) datasets, predicted a role for the novel transcription factor, Forkhead Box D3 (FOXD3) in healthy endometrium and in endometriosis, which was followed by the demonstration of decreased levels of the protein upon decidualisation of normal human endometrial stromal cells in vitro and differential endometrial expression in the stroma in endometriosis. WHAT IS KNOWN ALREADY: The reported endometriosis-associated endometrial aberrations are most pronounced in the progesterone-dominant secretory phase and progesterone resistance is a proposed causative factor. STUDY DESIGN, SIZE, DURATION: The study was initially an 'in silico' study, with confirmatory 'wet lab' data from western blotting (WB), qPCR and Immunohistochemistry (IHC) on endometrial biopsies obtained from 142 women undergoing gynaecological surgery. PARTICIPANTS/MATERIALS, SETTING, METHODS: The study was conducted at a University Research Institute. Bioinformatic analysis of selected published microarray datasets identified differentially regulated genes for the early and mid-secretory phases relative to the proliferative phase. Diseases and Functions categories were identified with Ingenuity (IPA) 'core analysis' software. The key transcription factors controlling secretory phase gene changes were revealed with oPOSSUM software. FOXD3 expression levels were examined in human endometrial samples from women aged 18-55 years by WB, IHC, and qPCR. The progesterone regulation of endometrial FOXD3 levels was examined in vivo and in cultured primary human endometrial stromal cells in vitro. MAIN RESULTS AND THE ROLE OF CHANCE: Initial data mining and subsequent bioinformatics analysis of human endometrial microarray datasets identified FOXD3 to be a key regulator of gene expression specific to secretory phase/endometriosis. FOXD3 was dynamically expressed in healthy endometrium and differentially expressed in endometriosis. In vitro decidualisation of primary endometrial stromal cells significantly decreased FOXD3 protein (P = 0.0005) and progestagen (Levonorgestrel) treatment also reduced the high endometrial FOXD3 protein (P = 0.0001) and mRNA levels (P = 0.04) seen in untreated women with endometriosis, with a shift of FOXD3 from the nucleus to the cytoplasm. LIMITATIONS, REASONS FOR CAUTION: The quality of Bioinformatics analysis and results depends on the published micro-array data. WIDER IMPLICATIONS OF THE FINDINGS: An in depth analysis of FOXD3 function and its relationship with estrogen and progesterone might provide insights into its potential deregulation in proliferative disorders of the endometrium including endometrial cancer where its expression is also deregulated. Further, FOX transcription factors are increasingly seen as novel therapeutic targets in disease. STUDY FUNDING/COMPETING INTERESTS: We acknowledge the support by Wellbeing of Women project grant RG1073 (D.K.H., A.J.V.). We also acknowledge the support of Liverpool Women's Hospital Foundation Trust (J.A.D.), Institute of Translational Medicine (D.M., A.J.V., D.K.H.) and the Institute of Integrative Biology (O.V.), University of Liverpool. All authors declare no conflict of interest. TRIAL REGISTRATION NUMBER: N/A.

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Condition tags

mesh:D004715endometriosis

MeSH descriptors

Endometriosis Forkhead Transcription Factors Adolescent Adult Biopsy Blotting, Western Computational Biology Computer Simulation Embryo Implantation Endometriosis Endometrium Endometrium Epithelial Cells Epithelial Cells Female Forkhead Transcription Factors Forkhead Transcription Factors Gene Expression Regulation Gene Expression Regulation Humans

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