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  • Small-Molecule-Based Lineage Reprogramming Creates Functional Astrocytes.

Small-Molecule-Based Lineage Reprogramming Creates Functional Astrocytes.

Cell reports (2016-07-12)
E Tian, Guoqiang Sun, Guihua Sun, Jianfei Chao, Peng Ye, Charles Warden, Arthur D Riggs, Yanhong Shi
ABSTRACT

Growing evidence indicates important roles for astrocytes in neurodevelopment and diseases. However, astrocytes and their roles in these processes remain poorly understood. Despite recent progress in reprogramming somatic cells into different types of neural cells, reprogramming to astrocytes has lagged. Here, we show that functional astrocytes can be generated from mammalian fibroblasts using only small molecules. Induced mouse astrocytes resemble primary astrocytes in astrocytic gene expression and epigenomic status and exhibit functional properties in promoting neuronal maturation, glutamate uptake, and calcium signaling. Moreover, these cells can recapitulate the Alexander disease phenotype of protein aggregation when expressing Gfap with a disease-causing mutation. The same compounds can also reprogram human fibroblasts into astroglial progenitor cells that can further mature into functional astrocytes. These chemically induced astrocytes may provide cellular models to uncover roles of astrocytes in normal neurodevelopment and pathogenesis of neurological diseases.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Anti-NeuN Antibody, clone A60, clone A60, Chemicon®, from mouse
Sigma-Aldrich
Anti-Sox1 Antibody, Chemicon®, from rabbit