Project description:In this study, we analyzed the submandibular gland and submandibular gland-draining lymph nodes of P40-/-CD25-/- (SS mice) and P40-/-CD25+/- (control mice) using single-cell transcriptome and TCR sequencing of leukocytes. A total of 24,115 cells were obtained for analysis, of which 9,897 cells were from the submandibular gland and 14,218 cells were from the draining lymph nodes. We found that tissue-resident CD8+T cells (CD8+Trm) in the submandibular gland of SS mice expanded massively and highly expressed PD-1. These CD8+Trm cells, which highly express PD-1, exhibit clonal expansion and cytotoxicity. In addition, shared TCR analysis found that potential CD8+Trm precursor cells in the draining lymph nodes exhibited a Gzmk+Pdcd1+ phenotype. In summary, we found that PD-1+CD8+Trm cells in the submandibular gland of SS mice are potentially pathogenic and their precursors also express PD-1.

Project description:In this study, we analyzed the submandibular glands of P40-/-CD25+/- (control mice) and P40-/-CD25-/- (SS mice) after PD-1-targeted CAR-T cells or control T cells treatment using RNA-Seq. We found that the transcription of inflammatory genes was down-regulated and the transcription of tissue repair genes was up-regulated in the submandibular glands of SS mice after PD-1-targeted CAR-T cells treatment. In addition, PD-1+Tigit+CD8+ T cells in the submandibular gland draining lymph nodes of SS mice showed transcription characteristics of tissue resident memory precursors.

Project description:Therapies based on PD-1/PD-L1 blockade fail in most cancer patients. Here we evaluated the capacities of oleuropein to reprogram tumor-associated immunosuppressive myeloid cells to increase the potency of immunotherapies. Oleuropein caused major global reprogramming of monocytic and granulocytic myeloid-derived suppressor cells and tumor-associated macrophages towards immunostimulatory subsets. Differential quantitative proteomics uncovered activated and down-modulated pathways at high resolution for each subset which regulated major differentiation programs. Oleuropein significantly potentiated the capacities of myeloid cells to activate T-cells and enhanced antitumor properties of PD-1 blockade, either by systemic anti-PD-1 antibody administration, or locally by intratumor antibody delivery with a self-amplifying RNA vector based on Semliki Forest virus. Combination therapies decreased tumor infiltration by immunosuppressive myeloid cells and increased dendritic cell recruitment within draining lymph nodes, leading to systemic antitumor T-cell responses. Potent therapeutic activities were evident in lung cancer models resistant to immunotherapies and in colon cancer models.

Project description:Dendritic cells (DCs) express high levels of PD-L1 in the tumor microenvironment and draining lymph nodes. Here, we explore the roles of PD-L1 signaling during immunogenic chemotherapy. DC-conditional PD-L1 knockout mice were inoculated with MC38-OVA tumors and treated with doxorubicin. T cells were isolated from draining lymph node for single cell RNA sequencing.

Project description:RNAseq profiling of AZD3458 monotherapy and combination treatment with anti-PD-1 of whole tumors, isolated tumor macrophages (Mac) (CD45+CD11b+F4/80+), whole blood (PB) and tumor draining lymph nodes (TDLN) were assessed to elucidate further mechanisms leading to enhanced combination activity.

Project description:Clinical benefit from PD-1 inhibitors relies on reinvigoration of endogenous anti-tumor immunity. Efforts to define cellular populations associated with PD-1 clinical efficacy have been largely restricted to analysis of tumor material and the description of subsets of relevant cellular-based biomarkers in the blood of PD-1 inhibitor treated cancer patients are yet to be characterized. Given the particular expression pattern of PD-1 and TIGIT inhibitory receptors on peripheral CD8 T-cell subsets and the reported importance of CD8 T cells co-expressing these two markers for anti-PD-1 efficacy, we sought to determine the distinct biological features of peripheral CD8 subsets delineated based on PD-1 and TIGIT expression. Our findings identify the PD-1+TIGIT+ (DPOS) CD8+ T-cell population as a subset of highly activated and proliferating T cells, enriched in tumor-specific T-cell clones and overexpressing CXCR5, a key marker of the recently described CD8 cytotoxic follicular T cell (Tfc) population. Strikingly, the frequency of DPOS T cells after 1 month of anti-PD-1 therapy was associated with clinical response in three independent cohorts of cancer patients treated with PD-1 inhibitor. Additionally, transcriptomic profiling of this subset described common features with the PD-1high CXCL13+ lymphocyte subset previously demonstrated in tumor infiltrates to be predictive of PD-1 blockade efficacy. Furthermore, TCR repertoire analysis described a cluster of emerging T-cell clonotypes in the DPOS population as a key feature of PD-1 therapeutic efficacy.

Project description:Clinical benefit from PD-1 inhibitors relies on reinvigoration of endogenous anti-tumor immunity. Efforts to define cellular populations associated with PD-1 clinical efficacy have been largely restricted to analysis of tumor material and the description of subsets of relevant cellular-based biomarkers in the blood of PD-1 inhibitor treated cancer patients are yet to be characterized. Given the particular expression pattern of PD-1 and TIGIT inhibitory receptors on peripheral CD8 T-cell subsets and the reported importance of CD8 T cells co-expressing these two markers for anti-PD-1 efficacy, we sought to determine the distinct biological features of peripheral CD8 subsets delineated based on PD-1 and TIGIT expression. Our findings identify the PD-1+TIGIT+ (DPOS) CD8+ T-cell population as a subset of highly activated and proliferating T cells, enriched in tumor-specific T-cell clones and overexpressing CXCR5, a key marker of the recently described CD8 cytotoxic follicular T cell (Tfc) population. Strikingly, the frequency of DPOS T cells after 1 month of anti-PD-1 therapy was associated with clinical response in three independent cohorts of cancer patients treated with PD-1 inhibitor. Additionally, transcriptomic profiling of this subset described common features with the PD-1high CXCL13+ lymphocyte subset previously demonstrated in tumor infiltrates to be predictive of PD-1 blockade efficacy. Furthermore, TCR repertoire analysis described a cluster of emerging T-cell clonotypes in the DPOS population as a key feature of PD-1 therapeutic efficacy.

Project description:We report the transcriptional profiles of tumor-specific CD8+ T cells isolated from tumor draining lymph nodes (TDLN) and tumor following tumor vaccination in C57BL/6 mice. In addition, we included wild type (WT) and TGF-b receptor conditional knockout (Tgfbr2-/-) CD8+ T cells.

Project description:To determine the influence of primary tumors on pre-metastatic lymph nodes, we have employed whole genome microarray expression profiling as a discovery platform to identify gene signatures of stromal cells from tumor-draining lymph nodes, compared with normal lymph nodes. We subcutaneously inoculated C57BL/6 mice with the 4T1 mammary carcinoma. Two weeks later, tumor-draining lymph nodes were dissociated and stromal cells (CD45-) were sorted. Lymph nodes stromal cells from normal mice without tumor bearing were set as controls.

Project description:To determine the influence of primary tumors on pre-metastatic lymph nodes, we have employed whole genome microarray expression profiling as a discovery platform to identify gene signatures of B cells from tumor-draining lymph nodes, compared with normal lymph nodes. We subcutaneously inoculated C57BL/6 mice with the 4T1 mammary carcinoma. Two weeks later, tumor-draining lymph nodes were dissociated and B cells (CD19+) were sorted. Lymph nodes B cells from normal mice without tumor bearing were set as controls.