Calvin Kuo

Publication Details

  • Attribution of vascular phenotypes of the murine Egfl7 locus to the microRNA miR-126 DEVELOPMENT Kuhnert, F., Mancuso, M. R., Hampton, J., Stankunas, K., Asano, T., Chen, C., Kuo, C. J. 2008; 135 (24): 3989-3993


    Intronic microRNAs have been proposed to complicate the design and interpretation of mouse knockout studies. The endothelial-expressed Egfl7/miR-126 locus contains miR-126 within Egfl7 intron 7, and angiogenesis deficits have been previously ascribed to Egfl7 gene-trap and lacZ knock-in mice. Surprisingly, selectively floxed Egfl7(Delta) and miR-126(Delta) alleles revealed that Egfl7(Delta/Delta) mice were phenotypically normal, whereas miR-126(Delta/Delta) mice bearing a 289-nt microdeletion recapitulated previously described Egfl7 embryonic and postnatal retinal vascular phenotypes. Regulation of angiogenesis by miR-126 was confirmed by endothelial-specific deletion and in the adult cornea micropocket assay. Furthermore, miR-126 deletion inhibited VEGF-dependent Akt and Erk signaling by derepression of the p85beta subunit of PI3 kinase and of Spred1, respectively. These studies demonstrate the regulation of angiogenesis by an endothelial miRNA, attribute previously described Egfl7 vascular phenotypes to miR-126, and document inadvertent miRNA dysregulation as a complication of mouse knockout strategies.

    View details for DOI 10.1242/dev.029736

    View details for Web of Science ID 000261151000002

    View details for PubMedID 18987025

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