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Negative allosteric modulators of metabotropic glutamate receptor 3 target the stem-like phenotype of glioblastoma

Glioblastoma is an invariably deadly disease. A subpopulation of glioma stem-like cells (GSCs) drives tumor progression and treatment resistance. Two recent studies demonstrated that neurons form oncogenic glutamatergic electrochemical synapses with post-synaptic GSCs. This led us to explore whether...

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Bibliographic Details
Published in:Molecular therapy. Oncolytics 2021-03, Vol.20, p.166-174
Main Authors: Wirsching, Hans-Georg, Silginer, Manuela, Ventura, Elisa, Macnair, Will, Burghardt, Isabel, Claassen, Manfred, Gatti, Silvia, Wichmann, Jürgen, Riemer, Claus, Schneider, Hannah, Weller, Michael
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Language:English
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Summary:Glioblastoma is an invariably deadly disease. A subpopulation of glioma stem-like cells (GSCs) drives tumor progression and treatment resistance. Two recent studies demonstrated that neurons form oncogenic glutamatergic electrochemical synapses with post-synaptic GSCs. This led us to explore whether glutamate signaling through G protein-coupled metabotropic receptors would also contribute to the malignancy of glioblastoma. We found that glutamate metabotropic receptor (Grm)3 is the predominantly expressed Grm in glioblastoma. Associations of GRM3 gene expression levels with survival are confined to the proneural gene expression subtype, which is associated with enrichment of GSCs. Using multiplexed single-cell qRT-PCR, GSC marker-based cell sorting, database interrogations, and functional assays in GSCs derived from patients’ tumors, we establish Grm3 as a novel marker and potential therapeutic target in GSCs. We confirm that Grm3 inhibits adenylyl cyclase and regulates extracellular signal-regulated kinase. Targeting Grm3 disrupts self-renewal and promotes differentiation of GSCs. Thus, we hypothesize that Grm3 signaling may complement oncogenic functions of glutamatergic ionotropic receptor activity in neuroglial synapses, supporting a link between neuronal activity and the GSC phenotype. The novel class of highly specific Grm3 inhibitors that we characterize herein have been clinically tested as cognitive enhancers in humans with a favorable safety profile. [Display omitted] Wirsching et al. establish glutamate metabotropic receptor (Grm)3 as the most abundantly expressed Grm in glioblastoma. Single-cell analyses establish preferential expression of Grm3 in glioma stem-like cells (GSCs). A novel class of clinically well-tolerated negative allosteric modulators of Grm3 compromised the GSC phenotype, warranting further exploration as anti-glioblastoma agents.
ISSN:2372-7705
2372-7705
DOI:10.1016/j.omto.2020.12.009