c-Myb regulates transcriptional activation of miR-143/145 in vascular smooth muscle cells

BACKGROUND: MicroRNAs (miR) are small non-coding RNAs that regulate diverse biological functions. The bicistronic gene miR-143/145 determines cell fate and phenotype of vascular smooth muscle cells (VSMC), in part, by destabilizing Elk-1 mRNA. The transcription factor c-Myb also regulates differentiation and proliferation of VSMC, and here we test whether these effects may be mediated by miR-143/145. METHODS & RESULTS: Flow cytometry of cardiovascular-directed d3.75 embryoid bodies (EBs) isolated smooth muscle progenitors with specific cell surface markers. In c-myb knockout (c-myb (-/-)) EB, these progenitors manifest low levels of miR-143 (19%; p<0.05) and miR-145 (6%; p<0.01) expression as compared to wild-type (wt) EB. Primary VSMC isolated from transgenic mice with diminished expression (c-myb(lx/lx)) or reduced activity (c-myb(h/h)) of c-Myb also manifest low levels of miR-143 (c-myb(lx/lx): 50%; c-myb(h/h): 41%), and miR-145 (c-myb(lx/lx): 49%; c-myb(h/h): 56%), as compared to wt (P<0.05). Sequence alignment identified four putative c-Myb binding sites (MBS1-4) in the proximal promoter (PP) of the miR-143/145 gene. PP-reporter constructs revealed that point mutations in MBS1 and MBS4 abrogated c-Myb-dependent transcription from the miR-143/145 PP (P<0.01). Chromatin immunoprecipitation (ChIP) revealed preferential c-Myb binding at MBS4 (p<0.001). By conjugating Elk-1 3’-untranslated region (UTR) to a reporter and co-transducing wt VSMC with this plus a miR-143-antagomir, and co-transducing c-myb(lx/lx) VSMC with this plus a miR-143-mimic, we demonstrate that c-Myb’s ability to repress Elk-1 is mediated by miR-143. CONCLUSION: c-Myb regulates VSMC gene expression by transcriptional activation of miR-143/145.