Shear stress-regulated miR-27b controls pericyte recruitment by repressing SEMA6A and SEMA6D.

Aims: Vessel maturation involves the recruitment of mural cells such as pericytes and smooth muscle cells. Laminar shear stress is a major trigger for vessel maturation, but the molecular mechanisms by which shear stress affects recruitment of pericytes are unclear. MicroRNAs (miRs) are small non-coding RNAs, which post-transcriptionally control gene expression. The aim of the present study was to unveil the mechanism by which shear stress-regulated microRNAs contribute to vessel maturation.

Methods and results: Here, we show that laminar shear stress increased miR-27a and miR-27b expression in vitro and in ex vivo in mouse femoral artery explants. Overexpression of miR-27b in endothelial cells increased pericyte adhesion and pericyte recruitment in vitro . In vitro barrier function of endothelial-pericyte co-cultures was augmented by miR-27b overexpression, whereas inhibition of miR-27a/b reduced adhesion and pericyte coverage and decreased barrier functions. In vivo , pharmacological inhibition of miR-27a/b by locked nucleic acid antisense oligonucleotides significantly reduced pericyte coverage and increased water content in the murine uterus. MiR-27b overexpression repressed semaphorins (SEMA), which mediate repulsive signals, and the vessel destabilizing human but not mouse Angiopoietin-2 (Ang-2). Silencing of SEMA6A and SEMA6D rescued the reduced pericyte adhesion by miR-27 inhibition. Furthermore, inhibition of SEMA6D increased barrier function of an endothelial-pericyte co-culture in vitro .

Conclusion: The present study demonstrates for the first time that shear stress-regulated miR-27b promotes the interaction of endothelial cells with pericytes, partly by repressing SEMA6A and SEMA6D.