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Cas9-AAV6-engineered human mesenchymal stromal cells improved cutaneous wound healing in diabetic mice

Waracharee Srifa, Nina Kosaric, Alvaro Amorin, Othmane Jadi, Yujin Park, Sruthi Mantri, Joab Camarena, Geoffrey C. Gurtner, Matthew H. Porteus

2020Nature Communications79 citationsDOIOpen Access PDF

Abstract

Human mesenchymal stromal cells (hMSCs) are a promising source for engineered cell-based therapies in which genetic engineering could enhance therapeutic efficacy and install novel cellular functions. Here, we describe an optimized Cas9-AAV6-based genome editing tool platform for site-specific mutagenesis and integration of up to more than 3 kilobases of exogenous DNA in the genome of hMSCs derived from the bone marrow, adipose tissue, and umbilical cord blood without altering their ex vivo characteristics. We generate safe harbor-integrated lines of engineered hMSCs and show that engineered luciferase-expressing hMSCs are transiently active in vivo in wound beds of db/db mice. Moreover, we generate PDGF-BB- and VEGFA-hypersecreting hMSC lines as short-term, local wound healing agents with superior therapeutic efficacy over wildtype hMSCs in the diabetic mouse model without replacing resident cells long-term. This study establishes a precise genetic engineering platform for genetic studies of hMSCs and development of engineered hMSC-based therapies.

Topics & Concepts

Mesenchymal stem cellEx vivoWound healingStromal cellTissue engineeringGenome editingAdipose tissueIn vivoCell biologyBiologyCancer researchCRISPRImmunologyGeneBiotechnologyGeneticsEndocrinologyMesenchymal stem cell researchRNA Interference and Gene DeliveryCRISPR and Genetic Engineering