Project description:Immune checkpoints are often expressed on tumor cells; it remains a prevailing need to identify the mechanisms underlying their regulation and therapeutic benefit. The immune checkpoint molecule B7-H3 is upregulated in many human tumors, including those with high mechanistic/mammalian target of rapamycin complex (mTORC1) activity. Still, its role in tumor immunity and the impact of B7-H3-targeted therapy on the tumor immune microenvironment are largely uncharacterized in mTORC1-hyperactive tumors. Here, we used a syngeneic murine model of tuberous sclerosis complex (TSC), a model of mTORC1 hyperactivity, to assess the mechanisms by which B7-H3 remodels the tumor microenvironment. We performed gene expression profiling analysis using data generated from RNA-seq of bulk tumors from subcutaneous B7-H3 knockdown and control TSC2-deficient 105K cells or sorted tumor cells isolated by MACS mouse tumor cell isolation kit (Miltenyi Biotec).

Project description:Analysis of mouse ovarian cancer cell lines HM-1 and ID8, and HM-1 tumors inoculated to B6C3F1 mice with B7-H3 (Cd276) knockout (KO) by CRISPR-Cas9. We identified B7-H3 expression is upregulated in IFN-γ–low, PD-L1–low non-immunoreactive tumors of high grade serous ovarian cancer. We explored the influence of B7-H3 on immune evasion outside of its direct regulatory function on target cells by generating B7-H3 knockout cell lines and tumors in syngeneic mouse models.

Project description:mTORC1 upregulates B7-H3/CD276 to inhibit antitumor T cells and drive tumor immune evasion

Project description:The tumor microenvironment can significantly alter CAR-T cell phenotypes. We therefore performed RNA sequencing to understand the effect of TMIGD2 vs CD28.4-1BB comstimulation in B7-H3 CAR-T cells after intravenous administration to tumor-bearing mice in vivo.

Project description:mTORC1 upregulates B7-H3/CD276 to inhibit antitumor T cells and drive tumor immune evasion [CITE-Seq]

Project description:mTORC1 upregulates B7-H3/CD276 to inhibit antitumor T cells and drive tumor immune evasion [RNA-seq]

Project description:In melanoma, immune cell infiltration into the tumor is associated with better patient outcomes and response to immunotherapy. T cell non-inflamed tumors (‘cold tumors’) are associated with tumor cell intrinsic Wnt/β-catenin activation, and are resistant to anti-PD-1 alone or in combination with anti-CTLA-4 therapy. Reversal of the ‘cold tumor’ phenotype and identifying new effective immunotherapies are challenges in melanoma. In a well-established preclinical melanoma model driven by β-catenin, we found that immune checkpoint molecule B7-H3 confers a suppressive tumor microenvironment by modulating antiviral signals and matricellular proteins. Its inhibition primes the microenvironment, and together with blockade of the macrophage checkpoint CD47, but not with anti-PD-1, results in synergistic anti-tumor responses. This study brings B7-H3 to the forefront as inducing a suppressive microenvironment when overexpressed, and co-targeting with CD47 as a novel combination of immune checkpoint inhibitors in melanoma that calls for testing in clinical trials.

Project description:In melanoma, immune cell infiltration into the tumor is associated with better patient outcomes and response to immunotherapy. T cell non-inflamed tumors (‘cold tumors’) are associated with tumor cell intrinsic Wnt/β-catenin activation, and are resistant to anti-PD-1 alone or in combination with anti-CTLA-4 therapy. Reversal of the ‘cold tumor’ phenotype and identifying new effective immunotherapies are challenges in melanoma. In a well-established preclinical melanoma model driven by β-catenin, we found that immune checkpoint molecule B7-H3 confers a suppressive tumor microenvironment by modulating antiviral signals and matricellular proteins. Its inhibition primes the microenvironment, and together with blockade of the macrophage checkpoint CD47, but not with anti-PD-1, results in synergistic anti-tumor responses. This study brings B7-H3 to the forefront as inducing a suppressive microenvironment when overexpressed, and co-targeting with CD47 as a novel combination of immune checkpoint inhibitors in melanoma that calls for testing in clinical trials.

Project description:In melanoma, immune cell infiltration into the tumor is associated with better patient outcomes and response to immunotherapy. T cell non-inflamed tumors (‘cold tumors’) are associated with tumor cell intrinsic Wnt/β-catenin activation, and are resistant to anti-PD-1 alone or in combination with anti-CTLA-4 therapy. Reversal of the ‘cold tumor’ phenotype and identifying new effective immunotherapies are challenges in melanoma. In a well-established preclinical melanoma model driven by β-catenin, we found that immune checkpoint molecule B7-H3 confers a suppressive tumor microenvironment by modulating antiviral signals and matricellular proteins. Its inhibition primes the microenvironment, and together with blockade of the macrophage checkpoint CD47, but not with anti-PD-1, results in synergistic anti-tumor responses. This study brings B7-H3 to the forefront as inducing a suppressive microenvironment when overexpressed, and it’s co-targeting with CD47 as a novel combination of immune checkpoint inhibitors in melanoma that calls for testing in clinical trials.

Project description:In melanoma, immune cell infiltration into the tumor is associated with better patient outcomes and response to immunotherapy. T cell non-inflamed tumors (‘cold tumors’) are associated with tumor cell intrinsic Wnt/β-catenin activation, and are resistant to anti-PD-1 alone or in combination with anti-CTLA-4 therapy. Reversal of the ‘cold tumor’ phenotype and identifying new effective immunotherapies are challenges in melanoma. In a well-established preclinical melanoma model driven by β-catenin, we found that immune checkpoint molecule B7-H3 confers a suppressive tumor microenvironment by modulating antiviral signals and matricellular proteins. Its inhibition primes the microenvironment, and together with blockade of the macrophage checkpoint CD47, but not with anti-PD-1, results in synergistic anti-tumor responses. This study brings B7-H3 to the forefront as inducing a suppressive microenvironment when overexpressed, and it’s co-targeting with CD47 as a novel combination of immune checkpoint inhibitors in melanoma that calls for testing in clinical trials.