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Triggering receptor expressed on myeloid cells 2 (TREM2) regulates phagocytosis in glioblastoma

Mekenzie Peshoff, Pravesh Gupta, Shivangi Oberai, Rakesh Trivedi, Hiroshi Katayama, Prashanth Chakrapani, Minghao Dang, Simona Migliozzi, Joy Gumin, Divya B Kadri, Jessica K. Lin, Nancy Milam, Mark E. Maynard, Brian Vaillant, Brittany C. Parker Kerrigan, Frederick F. Lang, Jason T. Huse, Antonio Iavarone, Linghua Wang, Karen Clise-Dwyer, Krishna Bhat

2024Neuro-Oncology51 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Glioblastomas (GBMs) are central nervous system tumors that resist standard-of-care interventions and even immune checkpoint blockade. Myeloid cells in the tumor microenvironment can contribute to GBM progression; therefore, emerging immunotherapeutic approaches include reprogramming these cells to achieve desirable antitumor activity. Triggering receptor expressed on myeloid cells 2 (TREM2) is a myeloid signaling regulator that has been implicated in a variety of cancers and neurological diseases with contrasting functions, but its role in GBM immunopathology and progression is still under investigation. METHODS: Our reverse translational investigations leveraged single-cell RNA sequencing and cytometry of human gliomas to characterize TREM2 expression across myeloid subpopulations. Using 2 distinct murine glioma models, we examined the role of Trem2 on tumor progression and immune modulation of myeloid cells. Furthermore, we designed a method of tracking phagocytosis of glioma cells in vivo and employed in vitro assays to mechanistically understand the influence of TREM2 signaling on tumor uptake. RESULTS: We discovered that TREM2 expression does not correlate with immunosuppressive pathways, but rather showed strong a positive association with the canonical phagocytosis markers lysozyme (LYZ) and macrophage scavenger receptor (CD163) in gliomas. While Trem2 deficiency was found to be dispensable for gliomagenesis, Trem2+ myeloid cells display enhanced tumor uptake compared to Trem2- cells. Mechanistically, we demonstrate that TREM2 mediates phagocytosis via Syk signaling. CONCLUSIONS: These results indicate that TREM2 is not associated with immunosuppression in gliomas. Instead, TREM2 is an important regulator of phagocytosis that may be exploited as a potential therapeutic strategy for brain tumors.

Topics & Concepts

TREM2Cancer researchBiologyMyeloidGliomaImmune systemMicrogliaPhagocytosisTumor progressionTumor microenvironmentImmunotherapyImmunologyCancerMyeloid cellsInflammationGeneticsNeuroinflammation and Neurodegeneration MechanismsInflammation biomarkers and pathwaysImmune cells in cancer