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Mutation of FOXC1 and PITX2 induces cerebral small-vessel disease.

The Journal of clinical investigation (2014-09-25)
Curtis R French, Sudha Seshadri, Anita L Destefano, Myriam Fornage, Corey R Arnold, Philip J Gage, Jonathan M Skarie, William B Dobyns, Kathleen J Millen, Ting Liu, William Dietz, Tsutomu Kume, Marten Hofker, Derek J Emery, Sarah J Childs, Andrew J Waskiewicz, Ordan J Lehmann
ZUSAMMENFASSUNG

Patients with cerebral small-vessel disease (CSVD) exhibit perturbed end-artery function and have an increased risk for stroke and age-related cognitive decline. Here, we used targeted genome-wide association (GWA) analysis and defined a CSVD locus adjacent to the forkhead transcription factor FOXC1. Moreover, we determined that the linked SNPs influence FOXC1 transcript levels and demonstrated that patients as young as 1 year of age with altered FOXC1 function exhibit CSVD. MRI analysis of patients with missense and nonsense mutations as well as FOXC1-encompassing segmental duplication and deletion revealed white matter hyperintensities, dilated perivascular spaces, and lacunar infarction. In a zebrafish model, overexpression or morpholino-induced suppression of foxc1 induced cerebral hemorrhage. Inhibition of foxc1 perturbed platelet-derived growth factor (Pdgf) signaling, impairing neural crest migration and the recruitment of mural cells, which are essential for vascular stability. GWA analysis also linked the FOXC1-interacting transcription factor PITX2 to CSVD, and both patients with PITX2 mutations and murine Pitx2-/- mutants displayed brain vascular phenotypes. Together, these results extend the genetic etiology of stroke and demonstrate an increasing developmental basis for human cerebrovascular disease.