An Efficient Direct Conversion Strategy to Generate Functional Astrocytes from Human Adult Fibroblasts

Author:

Bhaskar UchitORCID,Shrimpton EmilyORCID,Ayo Jason,Prasla Asiya,Kos Mark ZORCID,Carless Melanie A.

Abstract

SummaryDirect reprogramming approaches offer an attractive alternative to stem-cell-derived models, allowing the retention of epigenetic information and age-associated cellular phenotypes, and providing an expedited method to generate target cell types. Several groups have previously generated multiple neuronal subtypes, neural progenitor cells, oligodendrocytes, and other cell types directly from fibroblasts. However, while some groups have had success at the efficient conversion ofembryonicfibroblasts to astrocytes, they have not yet achieved similar conversion efficiency foradulthuman fibroblasts. To generate astrocytes for the study of adult-stage disorders, we developed an improved direct conversion strategy employing a combination of small molecules to activate specific pathways that induce trans-differentiation of human adult fibroblasts to astrocytes. We demonstrate that this method produces mature GFAP+/S100β+ cells at high efficiency (40-45%), comparable to previous studies utilizing embryonic fibroblasts. Further,Fibroblast-derived inducedAstrocytes (FdiAs) are enriched for markers of astrocyte functionality, including ion-channel buffering, gap-junction communication, and glutamate uptake; and exhibit astrocyte-like calcium signaling and neuroinflammatory phenotypes. RNA-Seq analysis indicates a close correlation to human brain astrocytes and iPSC-derived astrocyte models. Fibroblast-derived induced astrocytes provide a useful tool in studying the adult brain and complement existingin vitromodels of induced neurons (iNs), providing an additional platform to study adult-stage brain disorders.

Publisher

Cold Spring Harbor Laboratory

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