Abstract MP219: Hnrnpa2b1-dependent Selective Sorting Of Mir-486a-5p Into Msc-derived Exosomes Contributes To Cardioprotection

Abstract

Exosomes (Exo) are a class of extracellular vesicles and involvement of stem cell-derived Exo in cardiac repair and cardioprotection is thought to be an important in the heart. Our HYPOTHESIS Is that specific microRNAs (miRs) from mesenchymal stem cell (MSC)-derived exosomes are actively and selectively sorted into Exo by RNA binding proteins and motifs on the miR, to serve specific functions of the Exo, including Cardioprotection. Methods: We characterized the miR populations of parental MSCs and their Exo via RNA Seq and confirmed by QRT-PCR the subpopulation of miRs that is increased in Exo vs . MSC cells. We then used Multiple Em for Motif Elicitation (MEME) Version 5.3.3 and determined the predicted conserved motifs. From these, we predicted RNA binding protein sites from the literature. In parallel, we performed mass spectrometry and western blot analyses to determine RNA binding proteins in MSC and Exo. Predicting that hnRNPA2B1 was a likely RNA binding protein for the new motif, we knocked out the cognate gene (CRISPR) in MSC and evaluated the KO Exo vs. the WT Exo by RNA Seq and QRT-PCR. We performed protein and RNA pulldowns, and EMSA to validate binding of hnRNPA2B1 to several of the miRs, and investigated the effects of these miRs on cell survival after simIR and in an in vivo mouse model of MI. Results: We found a set of eight miRs that are selectively concentrated in the MSC Exo. MEME software predicted a conserved binding motif of gAGu, which is close to canonical sites for binding of hnRNPA2B1 and hnRNPA1. We determined hnRNPA2B1 was in MSC and Exo and showed KO hnRNPA2B1 cells and Exo had no compensatory perturbation of other RNA binding proteins. The KO MSC Exo show reduction of the selective sorting of the miRs of interest. Pulldowns and binding assay results verify binding of hnRNPA2B1 to both miR-486a-5p and miR-122a. Finally, we showed that miR-486a-5p is protective in H9C2 cells submitted to simIR and results in significant 68% reduction of infarct size (n=7, P=0.0175) in vivo in association with repression of PDCD4 expression and apoptosis. Conclusions: We determined that a set of miRs is selectively concentrated in MSC Exo and demonstrated the necessity of hnRNPA2B1 in that process. This appears to involve a conserved RNA sequence motif (mutational analysis underway). A major miR affected is miR-486a-5p, which is strongly cardioprotective. Our results support that miR-486a-5p is selectively concentrated in MSC Exo and contributes to cardioprotection by reducing PDCD4 activity in apoptosis.