Abstract
Abstract While immune checkpoint blockade (ICB) is not effective in unselected glioblastoma (GBM) patients, we previously established that MAPK/ERK signaling is associated with overall survival following anti-PD-1 and anti-CTLA-4 treatment in recurrent GBM. However, the causal relationship between MAPK/ERK signaling and susceptibility to ICB, as well as the mechanisms underlying this association, remain to be determined. We conducted in vivo kinome-wide CRISPR/Cas9 screenings in murine gliomas to identify key regulators of susceptibility to anti-PD-1 and CD8+ T-cell response and performed survival studies to validate the most relevant hits. Additionally, paired scRNA-seq with p-ERK staining, spatial transcriptomics, and ex-vivo slice culture of BRAFV600E mutant GBM tumors treated with BRAFi/MEKi were used to determine the causal relationship between MAPK signaling, tumor cell immunogenicity, and modulation of microglia phenotype. Our CRISPR/Cas9 screening results identified the MAPK pathway, particularly the RAF-MEK-ERK pathway, as the most critical modulator of glioma susceptibility to anti-tumoral immunity across all kinases. Survival studies showed that mice bearing high p-ERK gliomas exhibited prolonged survival with anti-PD-1 treatment, which was not seen when ERK phosphorylation diminished. MAPK activation in murine gliomas led to durable anti-tumoral immunity upon implant re-challenge, with memory T cell infiltration in long-term survivors. Elevated p-ERK in glioma cells was associated with interferon responses and antigen presentation. Moreover, in BRAFV600E human GBM cells with ERK1/2 knockout and in slice cultures of human BRAFV600E GBM tissue analyzed by spatial transcriptomics, we observed modulation of interferon responses by the MAPK/ERK pathway. Notably, in slice cultures from BRAFV600E mutant GBM, BRAFi/MEKi treatment disrupted the interaction between tumor cells and tumor-associated macrophages/microglia. In conclusion, the MAPK/ERK pathway is a critical driver of GBM susceptibility to anti-tumoral immunity, modulating the interferon responses and antigen-presenting machinery in glioma cells, as well as tumor cell interaction with the microenvironment.
Published Version
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