ID2-ETS2 axis regulates the transcriptional acquisition of pro-tumoral microglia phenotype in glioma

Author:

Vázquez-Cabrera GuillermoORCID,Škandík MartinORCID,Roncier Noémie,Real Oualit Farah,Cruz De Los Santos MireiaORCID,Baleviciute AustejaORCID,Cheray MathildeORCID,Joseph BertrandORCID

Abstract

AbstractGlioblastoma is a highly aggressive brain tumour that creates an immunosuppressive microenvironment. Microglia, the brain’s resident immune cells, play a crucial role in this environment. Glioblastoma cells can reprogramme microglia to create a supportive niche that promotes tumour growth. However, the mechanisms controlling the acquisition of a transcriptome associated with a tumour-supportive microglial reactive state are not fully understood. In this study, we investigated changes in the transcriptional profile of BV2 microglia exposed to C6 glioma cells. RNA-sequencing analysis revealed a significant upregulation of microglial inhibitor of DNA binding 1 (Id1) and Id2, helix-loop-helix negative transcription regulatory factors. The concomitant regulation of microglial ETS proto-oncogene 2, transcription factor (ETS2)-target genes, i.e., Dusp6, Fli1, Jun, Hmox1, and Stab1, led us to hypothesize that ETS2 could be regulated by ID proteins. In fact, ID2-ETS2 protein interactions increased in microglia exposed to glioma cells. In addition, perturbation of the ID2-ETS2 transcriptional axis influenced the acquisition of a microglial tumour-supportive phenotype. ID2 and ETS2 genes were found to be expressed by the tumour-associated microglia isolated from human glioblastoma tumour biopsies. Furthermore, ID2 and ETS2 gene expressions exhibited inverse prognostic values in patients with glioma in cohorts from The Cancer Genome Atlas. Collectively, our findings indicate that the regulation of ETS2 by ID2 plays a role in the transcriptional regulation of microglia in response to stimuli originating from glioblastoma cells, information that could lead to developing therapeutic strategies to manipulate microglial tumour-trophic functions.

Funder

Vetenskapsrådet

Cancerfonden

Barncancerfonden

Hjärnfonden

Karolinska Institutet

Cancerföreningen i Stockholm

Robert Lundbergs Minnesstiftelse

Petrus och Augusta Hedlunds Stiftelse

Publisher

Springer Science and Business Media LLC

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