Abstract

Melorheostosis is a rare sclerosing bone disease with associated vascular abnormalities in skin and bone, which is caused by somatic mosaic single nucleotide variations in the MAP2K1 gene, which encodes MAPK/extracellular signal‒regulated kinase (ERK) kinase 1. However, disease pathogenesis is poorly understood. Using patient-derived cells, we found that affected skin fibroblasts carrying the single nucleotide variations have increased activation of ERK1/2, which results in increased expression and secretion of proangiogenic factors, including VEGF. VEGF secretion was strongly reduced in affected cells after treatment with MAPK/ERK kinase 1 inhibitor trametinib. Treatment of healthy endothelial cells on matrigel with conditioned medium from affected fibroblasts induces the adoption of a proangiogenic phenotype. Direct coculture of fibroblasts and endothelial cells further shows that both secreted factors and extracellular matrix are capable of inducing a proangiogenic phenotype in healthy endothelial cells. Blocking VEGF with bevacizumab reduces the proangiogenic effect of affected fibroblasts in both the matrigel and direct coculture angiogenesis models, indicating that elevated VEGF secretion is a key mediator of increased angiogenesis in melorheostosis tissue. In conclusion, this work identifies the role of several important molecular mediators in the pathogenesis of melorheostosis, including MAPK/ERK kinase 1, phosphorylated ERK1/2, and VEGF, all of which have clinically available pharmacologic inhibitors, which could be further explored as therapeutic targets.

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