The role of Plaur-miR1-5p encoded within the urokinase receptor gene (Plaur) in angiogenesis

Abstract

Angiogenesis plays a crucial role in tissue and organ regeneration by supplying essential nutrients and oxygen through the development of new blood vessels. Mesenchymal stem/stromal cells release extracellular vesicles that actively contribute to angiogenesis by carrying pro-angiogenic growth factors and microRNAs. MicroRNAs, small non-coding RNA molecules, are central players in angiogenesis, affecting endothelial cell proliferation, specialization, migration, apoptosis, and post-transcriptional gene expression.In the present study, we investigated the impact of extracellular vesicles containing Plaur-miR1- 5p microRNAs on angiogenesis, specifically focusing on its initial stages: vascular cell migration and the formation of capillary-like structures. Recently we discovered Plaur-miR1-5p, which is encoded within the urokinase receptor gene (Plaur). However, the functions of this microRNA remain largely unexplored. Using a vascular ring model embedded in Matrigel, we demonstrate that Plaur-miR1-5p is encapsulated within extracellular vesicles and plays a regulatory role in capillary-like structure formation. Moreover, applying bioinformatic analysis, we have identified potential target genes of Plaur-miR1-5p that participate in the regulation of angiogenesis.This study advances our comprehension of the fundamental processes governing angiogenesis, particularly the involvement of extracellular vesicles and microRNAs. Moreover, it sheds light on the functional aspects ofthe Plaur gene, contributing to a more profound understanding of its role in regulation of angiogenesis.