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Merck

Tumor-associated reactive astrocytes aid the evolution of immunosuppressive environment in glioblastoma.

Nature communications (2019-06-13)
Dieter Henrik Heiland, Vidhya M Ravi, Simon P Behringer, Jan Hendrik Frenking, Julian Wurm, Kevin Joseph, Nicklas W C Garrelfs, Jakob Strähle, Sabrina Heynckes, Jürgen Grauvogel, Pamela Franco, Irina Mader, Matthias Schneider, Anna-Laura Potthoff, Daniel Delev, Ulrich G Hofmann, Christian Fung, Jürgen Beck, Roman Sankowski, Marco Prinz, Oliver Schnell
RESUMEN

Reactive astrocytes evolve after brain injury, inflammatory and degenerative diseases, whereby they undergo transcriptomic re-programming. In malignant brain tumors, their function and crosstalk to other components of the environment is poorly understood. Here we report a distinct transcriptional phenotype of reactive astrocytes from glioblastoma linked to JAK/STAT pathway activation. Subsequently, we investigate the origin of astrocytic transformation by a microglia loss-of-function model in a human organotypic slice model with injected tumor cells. RNA-seq based gene expression analysis of astrocytes reveals a distinct astrocytic phenotype caused by the coexistence of microglia and astrocytes in the tumor environment, which leads to a large release of anti-inflammatory cytokines such as TGFβ, IL10 and G-CSF. Inhibition of the JAK/STAT pathway shifts the balance of pro- and anti-inflammatory cytokines towards a pro-inflammatory environment. The complex interaction of astrocytes and microglia cells promotes an immunosuppressive environment, suggesting that tumor-associated astrocytes contribute to anti-inflammatory responses.