A gel-top model for characterizing mesenchymal features of glioblastoma cells

Glioblastoma (GBM) remains one of the most aggressive adult cancers, with limited treatment options due to an incomplete understanding of its biology. GBM exhibits different transcriptional subtypes, among which the mesenchymal (mGBM) variant is associated with a particularly aggressive nature and poor outcomes. Developing models that capture mGBM phenotypes could offer new insights into its biology and therapeutic vulnerabilities. However, the lack of in vitro models for mGBM has posed challenges in investigating the aggressive GBM subtype.

Here, we present a gel-top culture model in which GBM cells exhibit MES features, including distinct transcriptomic profiles, invasive phenotypes, cell morphology, and cytoskeletal organization. Furthermore, co-culturing GBM cells with microglia in this system revealed enhanced microglial recruitment and interaction, effectively recapitulating the tumor microenvironment of mGBM that traditional 2D culture fails to model.

Using the bioinformatic tool, Small Molecule Suite, we identified casein kinase 2 (CK2) as a targetable molecule in GBM cells within our system, potentially driving MES features. Notably, CK2 inhibitors reduced the mesenchymal signature of mGBM cells, suggesting their potential as a targeted therapy for mGBM.

Together, our findings suggest that the gel-top culture model replicates key features of mGBM, serving as a valuable platform for studying its biology and identifying novel therapeutic strategies.