Haitao Ge scite author profile

Tumor migration/metastasis and immunosuppression are major obstacles in effective cancer therapy. Incidentally, these 2 hurdles usually coexist inside tumors, therefore making therapy significantly more complicated, as both oncogenic mechanisms must be addressed for successful therapeutic intervention. Our recent report highlights that the tumor expression of a TNF family member, CD70, is correlated with poor survival for primary gliomas. In this study, we investigated how CD70 expression by GBM affects the characteristics of tumor cells and the tumor microenvironment. We found that the ablation of CD70 in primary GBM decreased CD44 and SOX2 gene expression, and inhibited tumor migration, growth and the ability to attract monocyte-derived M2 macrophages in vitro. In the tumor microenvironment, CD70 was associated with immune cell infiltrates, such as T cells; myeloid-derived suppressor cells; and monocytes/macrophages based on the RNA-sequencing profile. The CD163+ macrophages were far more abundant than T cells were. This overwhelming level of macrophages was identified only in GBM and not in low-grade gliomas and normal brain specimens, implying their tumor association. CD70 was detected only on tumor cells, not on macrophages, and was highly correlated with CD163 gene expression in primary GBM. Additionally, the co-expression of the CD70 and CD163 genes was found to correlate with decreased survival for patients with primary GBM. Together, these data suggest that CD70 expression is involved in promoting tumor aggressiveness and immunosuppression via tumor-associated macrophage recruitment/activation. Our current efforts to target this molecule using chimeric antigen receptor T cells hold great potential for treating patients with GBM.

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The IDH1 Mutation-Induced Oncometabolite, 2-Hydroxyglutarate, May Affect DNA Methylation and Expression of PD-L1 in Gliomas

Long

Yang

et al. 2018

Front. Mol. Neurosci.

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Background: Malignant gliomas are heterogeneous brain tumors with the potential for aggressive disease progression, as influenced by suppressive immunoediting. Given the success and enhanced potential of immune-checkpoint inhibitors in immunotherapy, we focused on the connections between genetic alterations affected by IDH1 mutations and immunological landscape changes and PDL-1 expression in gliomas.Methods: Paired surgically resected tumors from lower-grade gliomas (LGGs) and glioblastomas (GBM) were investigated, and a genetic analysis of patients' primary tumor samples culled from TCGA datasets was performed.Results: The results demonstrate that when compared with IDH1-mutant tumors, IDH1 wildtype tumors represent an immunosuppression landscape and elevated levels of PD-L1 expression. DNA hypo-methylation of the PD-L1 gene, as well as high gene and protein expressions, were observed in the wildtype tumors. We also found that quantitative levels of IDH1 mutant proteins were positively associated with recurrence-free survival (RFS). A key product of the IDH1 mutation (2-hydroxyglutarate) was found to transiently increase DNA methylation and suppress PD-L1 expression.Conclusions: IDH1 mutations impact the immune landscape of gliomas by affecting immune infiltrations and manipulating checkpoint ligand PD-L1 expression. Applications of immune checkpoint inhibitors may be beneficial for chemoradiation-insensitive IDH1-wildtype gliomas.

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CD4+ and Perivascular Foxp3+ T Cells in Glioma Correlate with Angiogenesis and Tumor Progression

Yang

Gao

et al. 2017

Front. Immunol.

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BackgroundAngiogenesis and immune cell infiltration are key features of gliomas and their manipulation of the microenvironment, but their prognostic significance remains indeterminate. We evaluate the interconnection between tumor-infiltrating lymphocyte (TIL) and tumor blood-vasculatures in the context of glioma progression.MethodsPaired tumor tissues of 44 patients from three tumor-recurrent groups: diffuse astrocytomas (DA) recurred as DA, DA recurred as glioblastomas (GBM), and GBM recurred as GBM were evaluated by genetic analysis, immunohistochemistry for tumor blood vessel density, TIL subsets, and clinical outcomes. These cells were geographically divided into perivascular and intratumoral TILs. Associations were examined between these TILs, CD34+ tumor blood vessels, and clinical outcomes. To determine key changes in TIL subsets, microarray data of 15-paired tumors from patients who failed antiangiogenic therapy- bevacizumab, and 16-paired tumors from chemo-naïve recurrent GBM were also evaluated and compared.ResultsUpon recurrence in primary gliomas, similar kinetic changes were found between tumor blood vessels and each TIL subset in all groups, but only CD4+ including Foxp3+ TILs, positively correlated with the density of tumor blood vessels. CD4 was the predominant T cell population based on the expression of gene-transcripts in primary GBMs, and increased activated CD4+ T cells were revealed in Bevacizumab-resistant recurrent tumors (not in chemo-naïve recurrent tumors). Among these TILs, 2/3 of them were found in the perivascular niche; Foxp3+ T cells in these niches not only correlated with the tumor vessels but were also an independent predictor of shortened recurrence-free survival (RFS) (HR = 4.199, 95% CI 1.522–11.584, p = 0.006).ConclusionThe minimal intratumoral T cell infiltration and low detection of CD8 transcripts expression in primary GBMs can potentially limit antitumor response. CD4+ and perivascular Foxp3+ TILs associate with tumor angiogenesis and tumor progression in glioma patients. Our results suggest that combining antiangiogenic agents with immunotherapeutic approaches may help improve the antitumor efficacy for patients with malignant gliomas.

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CD70 as a novel target of CAR-T-cell therapy for gliomas.

Jin

Yang

et al. 2017

JCO

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148 Background: Gliomas are the most common primary malignant brain tumor and are uniformly lethal. Cancer immunotherapy has the potential to target gliomas; however, its antitumor effects are restricted by limitations in clinically useful tumor specific targets. Chimeric antigen receptor modified T-cell (CAR-T) therapy is a highly promising option for cancer treatment, due to its combination of precision antibody recognition and T-cell tumor-specific killing. CD70 is an antigen expressed by limited subsets of normal lymphocytes and dendritic cells but is aberrantly overexpressed by glioma cells, which makes it an outstanding glioma-antigen target. Methods: The gene and protein expression of CD70 were evaluated to identify its potential as a glioma target. Human and mouse versions of CD70-specific CAR-T cells were generated, and human primary GBM lines as well as murine lines (GL-261, KR-158B) were used as human and mouse tumor targets, respectively. The antitumor effect of the human and mouse CD70-sepecific CARs were tested in vitro and in orthotopic xenograft and syngeneic murine models. Results: CD70 is only overexpressed by tumor cells in a subset of low-grade gliomas and GBM. The elevated gene and protein expression are associated with increased tumor grade and poor patient survival. Co-culturing CD70-specific CAR-T cells with CD70-positive glioma cells resulted in potent secretion of IFN-gamma and tumor-specific killing in a CD70-dependent manner. Irradiation enhances CD70 expression on glioma cells and thus increases CAR T-cell recognition. Adoptive transfer of the human and mouse CD70 CAR-T cells resulted in tumor regression of immunocompetent and immunodeficient mice, respectively. Conclusions: CD70 can be an excellent tumor target for gliomas, and CD70-specific CAR-T cells have potent antitumor activity against CD70-positive gliomas both in vitro and in vivo. Our study provides crucial preclinical evidence to support the future clinical application of CD70 CAR-T cells to treat gliomas.

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Haitao Ge

CD70, a novel target of CAR T-cell therapy for gliomas

Tumor associated CD70 expression is involved in promoting tumor migration and macrophage infiltration in GBM

The IDH1 Mutation-Induced Oncometabolite, 2-Hydroxyglutarate, May Affect DNA Methylation and Expression of PD-L1 in Gliomas

CD4+ and Perivascular Foxp3+ T Cells in Glioma Correlate with Angiogenesis and Tumor Progression

CD70 as a novel target of CAR-T-cell therapy for gliomas.

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