Aged and BRCA-Mutated Stromal Cells Drive Epithelial Cell Transformation
Menée à l'aide notamment de modèles murins et d'échantillons tissulaires de trompes de Fallope, cette étude met en évidence le rôle des cellules souches/stromales mésenchymateuses et du vieillissement dans la transformation maligne des cellules épithéliales chez les femmes porteuses de mutations BRCA
The fundamental steps in high-grade serous ovarian cancer (HGSOC) initiation are unclear, presenting critical barriers to the prevention and early detection of this deadly disease. Current models propose that fallopian tube epithelial (FTE) cells transform into serous tubal intraepithelial carcinoma (STIC) precursor lesions and subsequently into HGSOC. In this study, we report that an epigenetically altered mesenchymal stem cell niche, termed high-risk mesenchymal stromal/stem cell (hrMSC), exists prior to STIC lesion formation. hrMSCs are enriched in STIC stroma and contribute to a stromal “field effect” extending beyond the borders of the STIC lesion. hrMSCs promote DNA damage in FTE cells while also fostering FTE cell survival. hrMSCs induce malignant transformation of the FTE, resulting in metastatic cancer in vivo, indicating that hrMSCs promote cancer initiation. hrMSCs are significantly enriched in BRCA1/2 mutation carriers and increase with age. Combined, these findings indicate that hrMSCs can incite ovarian cancer initiation and have important implications for ovarian cancer detection and prevention.This work demonstrates a critical role of fallopian tube stromal cells in HGSOC initiation with implications for the pathophysiology of HGSOC formation and the development of prevention and early detection strategies critically needed in this disease. Additionally, the identification of stromal-mediated epithelial transformation has broad implications for understanding pan-cancer initiation.
Cancer Discovery , article en libre accès 2025