Collagen I triggers directional migration, invasion and matrix remodeling of stroma cells in a 3D spheroid model of endometriosis

球体 基质凝胶 间质细胞 子宫内膜异位症 细胞生物学 细胞外基质 基质 生物 化学 癌症研究 病理 医学 细胞培养 免疫组织化学 血管生成 遗传学
作者
Anna Stejskalová,Victoria E. Fincke,Melissa Nowak,Yvonne Schmidt,Katrin Borrmann,Marie‐Kristin von Wahlde,Sebastian Daniel Schäfer,Ludwig Kiesel,Burkhard Greve,Martin Götte
出处
期刊:Scientific Reports [Nature Portfolio]
卷期号:11 (1) 被引量:42
标识
DOI:10.1038/s41598-021-83645-8
摘要

Abstract Endometriosis is a painful gynecological condition characterized by ectopic growth of endometrial cells. Little is known about its pathogenesis, which is partially due to a lack of suitable experimental models. Here, we use endometrial stromal (St-T1b), primary endometriotic stromal, epithelial endometriotic (12Z) and co-culture (1:1 St-T1b:12Z) spheroids to mimic the architecture of endometrium, and either collagen I or Matrigel to model ectopic locations. Stromal spheroids, but not single cells, assumed coordinated directional migration followed by matrix remodeling of collagen I on day 5 or 7, resembling ectopic lesions. While generally a higher area fold increase of spheroids occurred on collagen I compared to Matrigel, directional migration was not observed in co-culture or in 12Z cells. The fold increase in area on collagen I was significantly reduced by MMP inhibition in stromal but not 12Z cells. Inhibiting ROCK signalling responsible for actomyosin contraction increased the fold increase of area and metabolic activity compared to untreated controls on Matrigel. The number of protrusions emanating from 12Z spheroids on Matrigel was decreased by microRNA miR-200b and increased by miR-145. This study demonstrates that spheroid assay is a promising pre-clinical tool that can be used to evaluate small molecule drugs and microRNA-based therapeutics for endometriosis.

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