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abstract
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Project Summary Recently, we discovered that adoptive transfer of CD39KO tumor-specific (mixed CD4+ and CD8+) T cells, resulted in long-term survival of mice bearing large established tumors. Unexpectedly, we found that these T cells promoted killing of antigen-loss-variants (ALVs) in vivo and prevented tumor recurrence. Moreover, transfer of CD39KO, but not control KO, tumor-specific T cells eradicated large chimeric tumors that contained 10% of ALVs and resulted in long-term tumor-free survival and protection against rechallenge with ALV tumor cells. Based on these novel findings, we hypothesize that transfer of tumor-specific CD39KO T cells will eradicate large established tumors and prevent recurrence of ALV tumors, due to their ability to directly kill the tumor cells and induce anti-ALV responses. Aim 1 will determine the contribution of type I IFN production at the tumor site in preventing recurrence of ALV tumors. Aim 2 will determine the role of CD39KO T cells in the recruitment of inflammatory myeloid cells and the induction of type I IFN production for tumor clearance. Aim 3 will determine whether human tumor-specific CD39KO T cells are also endowed with these abilities to effectively eradicate human tumors in humanized mice. These innovative and mechanistic studies will shed light on the mechanisms underlying CD39KO T cell-mediated antitumor immunity and will thus establish a foundation for translating this discovery into more effective immunotherapies using tumor-specific T-cell subsets in human cancers.
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label
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Eradication of Escaped Variant Tumor Cells for Cancer Immunotherapy
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