Functional and Phenotypic Differences of Pure Populations of Stem Cell-derived Astrocytes and Neuronal Precursor Cells

Overview

Journal Glia

Specialty Neurology

Date 2015 Dec 23

PMID 26689134

Citations 21

Authors

Susanne Kleiderman

Joao V Sa

Ana P Teixeira

Catarina Brito

Simon Gutbier

Lars G Evje

Mussie G Hadera

Enrico Glaab

Margit Henry

Agapios Sachinidis

Paula M Alves

Ursula Sonnewald

Marcel Leist

Affiliations

Soon will be listed here.

Abstract

Availability of homogeneous astrocyte populations would facilitate research concerning cell plasticity (metabolic and transcriptional adaptations; innate immune responses) and cell cycle reactivation. Current protocols to prepare astrocyte cultures differ in their final content of immature precursor cells, preactivated cells or entirely different cell types. A new method taking care of all these issues would improve research on astrocyte functions. We found here that the exposure of a defined population of pluripotent stem cell-derived neural stem cells (NSC) to BMP4 results in pure, nonproliferating astrocyte cultures within 24-48 h. These murine astrocytes generated from embryonic stem cells (mAGES) expressed the positive markers GFAP, aquaporin 4 and GLT-1, supported neuronal function, and acquired innate immune functions such as the response to tumor necrosis factor and interleukin 1. The protocol was applicable to several normal or disease-prone pluripotent cell lines, and the corresponding mAGES all exited the cell cycle and lost most of their nestin expression, in contrast to astrocytes generated by serum-addition or obtained as primary cultures. Comparative gene expression analysis of mAGES and NSC allowed quantification of differences between the two cell types and a definition of an improved marker set to define astrocytes. Inclusion of several published data sets in this transcriptome comparison revealed the similarity of mAGES with cortical astrocytes in vivo. Metabolic analysis of homogeneous NSC and astrocyte populations revealed distinct neurochemical features: both cell types synthesized glutamine and citrate, but only mature astrocytes released these metabolites. Thus, the homogeneous cultures allowed an improved definition of NSC and astrocyte features.

Citing Articles

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An 840 kb distant upstream enhancer is a crucial regulator of catecholamine-dependent expression of the Bdnf gene in astrocytes.

Avarlaid A, Esvald E, Koppel I, Parkman A, Zhuravskaya A, Makeyev E Glia. 2023; 72(1):90-110.

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