IMMU-32. NON-INFLAMMATORY EFFECT OF DIPG ON TUMOR-ASSOCIATED MICROGLIA
2017
Diffuse intrinsic pontine glioma (DIPG) is a diffusely infiltrating high-grade glioma that has a peak incidence from ages 6-8 and only a 9-12 month median survival. Like adult gliomas, DIPG exhibits a significant expansion of myeloid cells, with microglia/macrophages accounting for ~30% of the tumor cell mass (Caretti & Monje, 2014). In adult glioma, these glioma-associated macrophages have been implicated as supporting angiogenesis and tumor cell invasion, proliferation, and survival (Glass & Synowitz, 2014). However, genomic and epigenomic characterizations of adult and pediatric high-grade gliomas revealed striking differences in the molecular nature of these tumors (Sturm et al., 2014), and traditional chemotherapeutic approaches to adult glioblastoma are not effective in DIPG, suggesting these are unique diseases with distinct pathophysiology. Our data demonstrates that tumor-associated macrophages from primary DIPG samples exhibit gene expression signatures that are associated with pro-tumorigenic functions, but are also significantly less inflammatory than tumor-associated macrophages isolated from adult glioblastoma samples. Moreover, the cytokine secretion profiles of patient-derived DIPG cell cultures are dramatically less inflammatory when compared to patient-derived adult high-grade glioma cell cultures, and are more similar to the profile of human neural precursor cell cultures. This suggests that DIPG is less immunogenic than adult GBM, which may allow the tumor cells to evade detection and infiltrate healthy tissue. We additionally show that DIPG cells express CD200, a ligand that inhibits myeloid cell activation. Knockdown of DIPG expression of CD200 increases primary microglial cell phagocytosis in direct co-culture experiments, and also inhibits DIPG progression in in vivo xenograft models. Thus, CD200 may represent a mechanism by which DIPG evades normal immune responses to tumor growth. By understanding the DIPG-microglial interaction in molecular detail, we will gain insight into the pathophysiology of DIPG that could direct future targeted therapies.
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