Project description:Local administration of IFN-α-producing proliferating myeloid cells (IFN-α-iPSC-pMCs) inhibited the tumor growth not only at the treatment site but also at the distant site (left). T cell receptor (TCR)-β chain repertoire and complementarity determining region 3 (CDR3) gene sequence analyses of tumor-infiltrating lymphocytes (TILs) showed marked enrichment of T cells with identical TCR-β chains in bilateral tumor tissues.

Project description:Temporal analysis of T-cell receptor (TCR) repertoire has been used to monitor treatment-induced changes in antigen-specific T cells in patients with cancer. However, lack of experimental model that allows the temporal analysis of TCR repertoire in same individual in homogeneous population limit the understanding of causal relationship between changes in TCR repertoire and antitumor responses. A bilateral tumor model, in which tumor cells were inoculated into the bilateral backs of mice, can be used for temporal analysis in TCR repertoire. In this study, we examined the prerequisite for this strategy: TCR repertoire are conserved between the bilateral tumor with same growth rate. The bilateral tumors with equivalent tumor size and draining lymph nodes (dLN) were collected 13 days after the tumor inoculation to analyze the TCR repertoire of CD4+ and CD8+ T cells. Most of the tumor-infiltrating T-cell clones were highly conserved between the bilateral tumors, and the extent of clonal expansion was equivalent. In addition, the similarity between bilateral tumors were equivalent to the heterogeneity in one side of the tumor. The similarity of TCR repertoire in the bilateral dLN was markedly lower than that of the tumor, suggesting that tumor-reactive T-cell clones induced independently in each dLN were integrated during recirculation and then infiltrated the tumor. These findings suggest that our bilateral tumor model is suitable for temporal monitoring of TCR repertoire to evaluate temporal and treatment-induced changes in tumor-reactive T-cell clones.

Project description:High-throughput sequencing and analyses of the TCR repertoire

Project description:While immune signaling has emerged as a defining feature of the glioma microenvironment, local selection of responding T cells and their anti-tumor potential as a population are difficult to measure directly in patients. High-throughput sequencing of T cell receptor repertoires (TCRseq) provides a population-wide statistical description of how T cells respond to disease. Here, we define new immunophenotypes in glioma based on TCRseq and RNA-Seq of tumor tissue, non-neoplastic brain tissue, and peripheral blood from patients. Using information theory, we characterize antigen-driven selection in glioma and its relationship with the expression of distinct immune-functional pathways in the tumor microenvironment. Finally, we identify a strong relationship between usage of certain TCR in peripheral blood and the divergence of the infiltrating T cell population from the peripheral repertoire. We anticipate that these immunophenotypes will be foundational to monitoring and predicting response to anti-glioma vaccines and immunotherapy. We characterized the T cell receptor (TCR) repertoires of 11 high-grade glioma patients, three low-grade glioma patients, and thee non-glioma patients by TCRseq of brain-infiltrating T cells and matching peripheral blood. In addition, we obtained gene expression profiles from brain tissue of each patient by RNA-Seq. We additionally measured the TCR repertoires exclusively from peripheral blood of one additional non-glioma patient.

Project description:Infiltrating T-lymphocytes from the peripheral blood into the central nervous system (CNS) play a dynamic role in the development of a neurological immune-mediated diseases. HAM/TSP is a chronic progressive inflammatory neurological disorder associated with human T-cell lymphotropic virus type I (HTLV-I) infection. In this chronic myelopathy, virus-infected circulating T-cells infiltrate the CNS and an immune response is initiated against the components of CNS. As the HTLV-I proviral load (PVL) has been used as the best clinical marker for patient diagnostic with HAM/TSP, we hypothesized there might be a signature on T-cell receptor (TCR) clonal repertoire in these patients, which could distinguish HAM/TSP patients from the healthy population, as well as from patients with a more heterogeneous CNS-reactive inflammatory disease as multiple sclerosis (MS). With this in mind, we applied an innovative unbiased molecular technique – unique molecular identifier (UMI) library-strategy to investigate with high accuracy the TCR clonal repertoire by high throughput sequencing (HTS) technology. cDNA-TCR β-chain libraries were sequenced from 2 million peripheral mononuclear cells (PBMCs) in 14 HAM/TSP patients, 34 MS patients and 20 healthy controls (HC). To address whether the clonal expansion correlates with the patient’s PVL level, analysis of longitudinal TCR repertoire was performed in 2 HAM/TSP patients. Over 5.6 million TCR sequences were generated per sample on HiSeq 2500 Illumina system and analyzed through the molecular identifier groups-based error correction pipeline (MiGEC). Bioinformatic analysis showed that clones with more than 8 reads had a lower coefficient of variation (CV) and then could be used with confidence to evaluate the TCR clonal expansion. While HAM/TSP patients showed the higher clonal T-cell expansion compared to MS and HC, increase of the TCR clonal expansion was inversely correlated with the diversity of TCR repertoire in all subject’s group. In addition, correlation of the PVL with TCR clonal expansion was observed in HAM/TSP patients at longitudinal time-points. Surprisingly, MS patients showed a higher diversity of TCR repertoire along with a very slight clonal T-cell expansion in comparison to either HAM/TSP patients or HC. Despite of the higher TCR clonal expansion in HAM/TSP patients, a non-shared or “private” TCR repertoire was observed in these patients. No clones that shared the same CDR3 amino acid sequences were seen in HC and MS patients. However, a cluster of related CDR3 amino acid sequences were observed for 18 out of 34 MS patients when evaluated by phylogenetic tree analysis. It suggestes that a TCR-repertoire signature might characterize patients with MS. Our findings suggest that even though a unique TCR-b repertoire shapes the immune response in patients with neurological immune-mediated disease, a relatedness on clonal T-cell repertoire exist in MS.

Project description:TCR repertoire sequencing from WT and Malt1PD mice

Project description:Anti-CD4 monoclonal antibody, a prominent immunomodulatory agent, elicits robust anti-tumor immunity in various cancers by increasing tumor-infiltrating lymphocytes and promoting CD8+ T cell reactivity against tumor cell-derived antigens. We conducted TCR repertoire analysis of anti-CD4-exposed endogenous CD8+ T cells to investigate the expansion pattern of the cell population.

Project description:We have reported that intra-tumoral treatment with 1V270, a phospholipid-conjugated TLR7 agonist,induces local expansion an systemic dispersion of oligoclonal tumor-specific T cells by TCR repertoire analysis using next generation RNAseq methodology. Here, we examined whether systemic 1V270 therapy also induced oligoclonal expansion of tumor-specific T cells. Two groups of BALB/c mice (n=4/group) were i.p. treated with 1V270,a phospholipid-conjugated TLR7 agonist. One cohort of mice was i.v. injected with 4T1-GLF cells (2×104) on day 0. Another cohort did not receive i.v. tumor injection (no tumor-exposed mice). 4T1 cells were orthotopically inoculated on day 21. To examine clonal specificity of tumor-specific T cells, CD8+ cells were isolated from the spleens and the tumor infiltrating lymphocytes of secondarily challenged tumors after initial 1V270 therapy. The TCR repertoires were assessed by next generation RNA sequencing of both TCRαand TCR β genes.

Project description:TCR beta repertoire sequencing of bulk CD3 and CD3 cells expressing CD56 and/or NKG2C molecules, of healthy donors.

Project description:Fibrosis is the final path of nearly every form of chronic disease and accounts for up to 45% of all deaths in the developed world. However, antifibrotic therapies that target fibrogenic cells are lacking. We tested whether specific immunization against ADAM12 can elicit an antigen-specific cytotoxic T cell response to ameliorate liver fibrosis. In this study, we performed T cell receptor (TCR) alpha- and beta-chain repertoire sequencing on fibrotic livers to further characterize the T cell response and to detect potential TCR clonotypes. We observed TCR clonality of liver-infiltrating T cells from v-A12- and control-vaccinated mice with minimal overlap to v-CTRL mice in two α-chain sequences. However, the vast majority of expanded clones from v-A12-vaccinated animals showed a unique sequence pattern. Moreover, there was no overlap in the β-chain sequences between v-A12-vaccinated and control mice, suggesting a vaccination-induced expansion of antigen-specific TCR clonotypes.