Glioblastoma-instructed microglia transit to heterogeneous phenotypic states with phagocytic and dendritic cell-like features in patient tumors and patient-derived orthotopic xenografts.

This manuscript addresses tumor-immune interactions in GBM, focusing on the molecular changes of the myeloid compartment. We find that myeloid cells, the most abundant immune cell population in brain tumors, undergo the most prominent transcriptional adaptation in the TME. Resident microglia represent the main myeloid cell population in the cellular tumor, while peripheral-derived myeloid cells appear to infiltrate the brain at sites of blood-brain barrier disruption. We identify reactive dendritic cell-like gene expression programs associated with enhanced phagocytic and antigen-presentation features in GBM-educated microglia subsets that might be harnessed for novel immunotherapeutic approaches. Overall, PDOX models faithfully recapitulate the major components of the GBM-educated TME and allow assessment of phenotypic changes in the GBM ecosystem upon treatment.