Role of CXCR3 for CD8+ T cells in cancer immunotherapy

CXCR3 对 CD8 T 细胞在癌症免疫治疗中的作用

• 批准号: 8033258
• 负责人: DAVID W. MULLINS
• 金额: $ 13.68万
• 依托单位: UNIVERSITY OF VIRGINIA
• 依托单位国家: 美国
• 财政年份: 2009
• 资助国家: 美国
• 起止时间: 2009-05-01 至 2011-07-24
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8033258
• 关键词: Adjuvant; Antigens; Basic Science; Biological; Biology; CD8-Positive T-Lymphocytes; CD8B1 gene; CXCR3 gene; Cancer Control; Cancer Vaccines; Cell Maintenance; Cell physiology; Cells; Clinical; Correlative Study; Cytotoxic T-Lymphocytes; Data; Disease; Evaluation; Failure; Generations; Health; Homing; Human; Immigration; Immune; Immunization; Immunobiology; Immunologics; Immunotherapy; In Vitro; Infiltration; Intervention; Knowledge; Lytic; Marker Vaccines; Mediating; Memory; Metastatic Melanoma; Molecular; Nature; Neoplasm Metastasis; Outcome; Patients; Phenotype; Population; Proteins; Regulation; Research; Role; Specific qualifier value; Specificity; Study models; T memory cell; T-Cell Activation; T-Lymphocyte; Therapeutic; Tissue Sample; Tissues; Tumor Biology; Vaccinated; Vaccination; Vaccines; Variant; Work; base; cancer immunotherapy; cell motility; chemokine receptor; cohort; conventional therapy; design; expectation; human tissue; immunogenic; melanocyte; melanoma; migration; mouse model; prognostic; response; success; tumor

DESCRIPTION (provided by applicant): Given the recalcitrant nature of melanoma to conventional therapies, there exists a critical need for successful clinical immunotherapy to treat metastatic melanoma. The objective of most clinical immunotherapy trials has been to generate maximal numbers of circulating tumor- specific cytotoxic T lymphocytes (CTL), predicated on the notion that "more is better." However, the correlation between magnitude of vaccine-induced CD8+ T cells and the objective clinical responses remains weak, suggesting that the inefficacy of immune therapy results from the qualitative failure of vaccine-induced T cells to efficiently activate, infiltrate tumor, and develop robust memory populations. Therefore, we have examined several qualitative aspects of tumor Ag-specific T cells from melanoma patients that have been vaccinated with multiple melanocyte differentiation protein-derived antigens in an adjuvant setting. We demonstrated a significant association between the expression of CXCR3 by circulating tumor-specific CD8+ T cells and the maintenance of disease-free status or survival, suggesting either that CXCR3 expression a) is functionally required for the T cell-mediated immunologic control of metastatic tumors, or b) serves as a marker of qualitatively-superior anti-tumor T cells. In the present proposal, we delineate three aims that will expand upon our initial findings and evaluate the mechanisms by which CXCR3 and its biological axis of molecules act to enhance immune-mediated tumor control. Specifically, we will relate CXCR3 expression in the human CD8 compartment to 1) immunization-induced polarization phenotype; 2) anti-tumor functionality; 3) and access to metastatic tumor compartments. We will use human tissues and samples for correlative studies and mouse models for mechanistic studies. Key deliverables of this research will include basic science knowledge with translational potential, including: 1) enhanced understanding of the regulation of CXCR3 expression and T cell polarization in human CD8+ T cells; 2) evaluation of the prognostic utility of CXCR3 expression as a marker of vaccine response and means to prospectively evaluate patient-specific response potential; and 3) new immunologic targets for intervention, so as to optimize the therapeutic potential of immunogenic vaccines. PUBLIC HEALTH RELEVANCE: We will evaluate the phenotype of vaccine-activated CD8+ cells in patients with metastatic melanoma, and then correlate qualitative functional aspects of these cells with clinical outcomes to determine the optimal type of T cell for rejection and control of cancer. We will also evaluate the phenotype of CD8+ T cells that infiltrate metastatic melanomas in human and use mouse models to evaluate the molecular and cellular mechanisms that govern T cell migration. Collectively, these studies will make new observations about the fundamental biology of T cell activation and migration in humans and establish the basis to optimize cancer vaccines by enhancing T cell infiltration of metastatic melanomas.

描述（由申请人提供）：鉴于黑色素瘤对常规疗法的排斥性，迫切需要成功的临床免疫疗法来治疗转移性黑色素瘤。大多数临床免疫治疗试验的目标是产生最大数量的循环肿瘤特异性细胞毒性T淋巴细胞（CTL），其基于“越多越好”的概念。“然而，疫苗诱导的CD 8 + T细胞的数量与客观临床反应之间的相关性仍然很弱，这表明免疫治疗的无效性是由于疫苗诱导的T细胞无法有效激活，浸润肿瘤和发展强大的记忆群体。因此，我们已经研究了几个定性方面的肿瘤银特异性T细胞的黑色素瘤患者已接种多种黑素细胞分化蛋白衍生的抗原在佐剂设置。我们证明了循环肿瘤特异性CD 8 + T细胞表达CXCR 3与维持无病状态或生存之间的显著相关性，表明CXCR 3表达a）是T细胞介导的转移性肿瘤免疫控制所需的功能，或B）作为质量上优越的抗肿瘤T细胞的标志物。在本提案中，我们描述了三个目标，这些目标将扩展我们的初步发现，并评估CXCR 3及其分子生物学轴作用于增强免疫介导的肿瘤控制的机制。具体而言，我们将人CD 8区室中的CXCR 3表达与1）免疫诱导的极化表型; 2）抗肿瘤功能; 3）和进入转移性肿瘤区室相关。我们将使用人体组织和样本进行相关研究，并使用小鼠模型进行机制研究。本研究的主要成果将包括具有转化潜力的基础科学知识，包括：1）增强对CXCR 3表达调控和人CD 8 + T细胞中T细胞极化的理解; 2）评估CXCR 3表达作为疫苗应答标志物的预后效用，以及前瞻性评估患者特异性应答潜力的方法;和3）用于干预的新的免疫学靶点，以优化免疫原性疫苗的治疗潜力。 公共卫生关系：我们将评估转移性黑色素瘤患者中疫苗活化的CD 8+细胞的表型，然后将这些细胞的定性功能方面与临床结果相关联，以确定用于排斥和控制癌症的最佳T细胞类型。我们还将评估浸润转移性黑色素瘤的CD 8 + T细胞的表型，并使用小鼠模型来评估控制T细胞迁移的分子和细胞机制。总的来说，这些研究将对人类T细胞活化和迁移的基础生物学进行新的观察，并通过增强转移性黑色素瘤的T细胞浸润来建立优化癌症疫苗的基础。