MiR-126 has been shown to suppress malignant mesothelioma (MM) by targeting cancer-related genes without inducing toxicity or histopathological changes. Exosomes provide the opportunity to deliver therapeutic cargo to cancer stroma. Here, a tumour stromal model composed of endothelial cells (HUVECs), fibroblasts (IMR-90 cells), non-malignant mesothelial cells (Met-5A cells) and MM cells (H28 and MM-B1 cells) was used. The cells were treated with exosomes from HUVECs carrying endogenous (exo-HUVEC) and enriched miR-126 (exo-HUVECmiR-126), and the uptake/turnover of exosomes; miR-126 distribution within the stroma; and effect of miR-126 on cell signalling, angiogenesis and cell proliferation were evaluated. Based on the sensitivity of MM cells to exo-HUVEC miR-126 treatment, miR-126 was distributed differently across stromal cells. The reduced miR-126 content in fibroblasts in favour of endothelial cells reduced angiogenesis and suppressed cell growth in an miR-126-sensitive environment. Conversely, the accumulation of miR-126 in fibroblasts and the reduced level of miR-126 in endothelial cells induced tube formation in an miR-126-resistant environment via VEGF/EGFL7 upregulation and IRS1-mediated cell proliferation. These findings suggest that transfer of miR-126 via HUVEC-derived exosomes represents a novel strategy to inhibit angiogenesis and cell growth in MM.

Department of Biomedical Sciences and Public Health Section of Legal Medicine Polytechnic University of Marche Via Tronto 10 A 60126 Ancona Italy

Department of Clinical and Molecular Sciences Section of Experimental and Occupational Medicine Polytechnic University of Marche Via Tronto 10 A 60126 Ancona Italy

Department of Medical Sciences University of Trieste Trieste Italy

Mitochondria Apoptosis and Cancer Research Group School of Medical Science Griffith University Southport 4222 Qld Australia; Molecular Therapy Group Institute of Biotechnology Czech Academy of Sciences Prague West 252 50 Czech Republic

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