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Bioactivity and miRNome Profiling of Native Extracellular Vesicles in Human Induced Pluripotent Stem Cell‐Cardiomyocyte Differentiation

Ana F. Louro, Marta Paiva, Marta Rodrigues de Oliveira, Katharina A. Kasper, Paula M. Alves, Patrícia Gomes‐Alves, Margarida Serra

2022Advanced Science57 citationsDOIOpen Access PDF

Abstract

Extracellular vesicles (EV) are an attractive therapy to boost cardiac regeneration. Nevertheless, identification of native EV and corresponding cell platform(s) suitable for therapeutic application, is still a challenge. Here, EV are isolated from key stages of the human induced pluripotent stem cell-cardiomyocyte (hiPSC-CM) differentiation and maturation, i.e., from hiPSC (hiPSC-EV), cardiac progenitors, immature and mature cardiomyocytes, with the aim of identifying a promising cell biofactory for EV production, and pinpoint the genetic signatures of bioactive EV. EV secreted by hiPSC and cardiac derivatives show a typical size distribution profile and the expression of specific EV markers. Bioactivity assays show increased tube formation and migration in HUVEC treated with hiPSC-EV compared to EV from committed cell populations. hiPSC-EV also significantly increase cell cycle activity of hiPSC-CM. Global miRNA expression profiles, obtained by small RNA-seq analysis, corroborate an EV-miRNA pattern indicative of stem cell to cardiomyocyte specification, confirming that hiPSC-EV are enriched in pluripotency-associated miRNA with higher in vitro pro-angiogenic and pro-proliferative properties. In particular, a stemness maintenance miRNA cluster upregulated in hiPSC-EV targets the PTEN/PI3K/AKT pathway, involved in cell proliferation and survival. Overall, the findings validate hiPSC as cell biofactories for EV production for cardiac regenerative applications.

Topics & Concepts

Cell biologyInduced pluripotent stem cellCell growthStem cellmicroRNABiologyExtracellular vesicleCellCellular differentiationChemistryProgenitor cellPI3K/AKT/mTOR pathwayDownregulation and upregulationSignal transductionMicrovesiclesGeneticsGeneEmbryonic stem cellExtracellular vesicles in diseaseMicroRNA in disease regulationTissue Engineering and Regenerative Medicine