Project description:T cells have the remarkable ability to sense and discriminate between a wide range of antigenic peptides bound to major histocompatibility complex molecules (pMHC). Here, we use interactomics to monitor in a time dependent manner the early molecular events taking place upon stimulation of murine CD8+ T cells with ligands of different affinity to the TCR. We used the mouse OT-I model in which T cells specifically recognize the ovalbumin OVA 257-264 peptide (SIINFEKL, also named N4) bound to the MHC-I molecule H-2Kb (pMHC). The OT-I TCR also recognizes altered peptide ligands amongst which SIITFEKL (T4) and SIIGFEKL (G4) with sub-optimal binding capacities (ligand affinity N4>T4>G4). For affinity purification (AP) of signalling complexes, we crossed OT-I TCR transgenic mice onto mice expressing an endogenous tagged (One-Strep-Tag: OST) version of the CD3z (also called CD247), ZAP70 or SLP76 molecules. CD8+ T cells were purified from pooled lymph nodes and spleens, shortly expanded, and were left unstimulated or stimulated with N4, T4 and G4 soluble pMHC tetramers for 30, 120 or 300 s. Complexes formed around either CD247, ZAP70 or SLP76 were then purified and analysed by mass spectrometry. Each AP-MS purification is associated with a corresponding control (purification from OT-I CD8+ T cells expressing only the endogenous version of each bait, cultured and stimulated in the same conditions). The number of replicate biological experiments was n=3 for all time-points, and each sample was analyzed twice by single-run nano LC-MS. In addition, the whole proteome of OT-I cell was analyzed by label-free shotgun proteomics in order to calculate cellular protein abundances for each interactor.

Project description:In this study we generated ATAC-seq libraries from mouse CD8+ OT-I T cells that were stimulated with WT splenocytes loaded with OVA peptide or OVA peptide variants, with or without presence of ITK inhibitor PRN-694 at early time points (0, 30min, 60min, or 120min).

Project description:To identify the role of KLF4 on exhausted CD8 T-cells, we retrovirally transduced Klf4 into OT-I CD8 T-cells on day1 of in vitro exhaustion model and repeatedly treated OVA peptide to induce exhaustion. Then we analyzed the gene expression profiles of these transduced cells by RNA-sequencing.

Project description:In this study we generated SMART-seq cDNA libraries from mouse CD8+ OT-I T cells that were stimulated with WT splenocytes loaded with OVA peptide or OVA peptide variants, with or without presence of ITK inhibitor PRN-694 at early time points (0, 30min, 60min, or 120min).

Project description:Distinct populations of progenitor exhausted (Tcf1+Tim-3-) and terminally exhausted (Tcf1-Tim-3+) CD8+ T-cells occur in B16-OVA tumors

Project description:Viral vectors are attractive vaccine platforms that elicit robust innate and adaptive immune responses; however, viral vector vaccine candidates vary greatly in their ability to induce protective immunity. Ad5 vectors elicit robust CD8+ T cell responses but typically characterized by an exhausted phenotype. The mechanisms by which Ad5 vectors induce dysfunctional CD8+ T cells have not been fully elucidated. Here we demonstrate that Ad5 vectors, but not Ad26 vectors, elicit exhausted antigen-specific IL-10+PD1+ CD4+ T cells with a dysfunctional transcriptional profile, and these cells effectively suppress CD8+ T cells responses in vivo. Induction of inhibitory CD4+ T cells by Ad5 vectors was associated with increased IL-27 expression, and IL-27 blockade improved CD4+ T cell polyfunctionality. Together our data highlight a novel role for IL-27 in regulating responses to viral vector vaccines. Splenic CD45.2+ OT-II TCR-Tg CD4 T cells from CD45.1+ B6 mice immunized with Ad5-OVA or Ad26-OVA were purified by FACS on day 10 post-immunization

Project description:Tumor-specific T cells are frequently exhausted by chronic antigenic stimulation. To explore new pathways for reinvigoration of anti-tumor immune functions, we developed a human ex vivo exhaustion model by repetitive antigenic stimulation of primary CD8 T cells. This results in T cells that resemble patient-derived T cells in tumors on a phenotypic and transcriptional level. A pooled targeted CRISPR screen was performed on ex vivo exhausted T cells. The readout was elevated CD107a degranulation after repetitive stimulation (CD107a+ vs CD107- cells after 4h co-culture with peptide loaded tumor cells).

Project description:Purpose: The molecular circuits which govern CD8 T cell fate after alloimmunization by transplantation or pregnancy are unknown. The goals of this study are to perform whole transcriptome profiling (RNA-seq) of antigen-experienced CD8 T cells in parous and grafted mice to determine whether these cells become memory or exhausted T cells. Methods: mRNA profiles of OT-1 T cells recovered fom naive,OVA-skin grafted and OVA-parous mice were generated by bulk RNA-sequencing. OT-1 cells were FACS sorted from 10 individual mice per each of the three groups and then pooled together into three replicate samples per group. The sequence reads that passed quality filters were analyzed after aligning (STAR) with EdgeR. Results: Comparison of OT-1 T cells from OVA-grafted and OVA-parous mice revealed 400 differentially expressed genes. Conclusions: Skin grafting promotes the differentiation of canonical memory CD8 T cells whereas pregnancy promotes the differentiation of exhausted CD8 T cells with diminished recall capacity.

Project description:The precise timing and pathway of memory CD8+ T cells differentiation from naïve T cells have remained undetermined. We found the smaller cell-size and slower cell cycling cells were segregated from the proliferative larger cell-size activated T cell pool at the peak of infection. Gene signature of the smaller cell-size slower cycling cells and the large cell-size proliferative cells was compared to the signature of naïve, effector, central and effector memory CD8+ T cells. Total RNA samples were prepared from sorted populations of larger or smaller cell-sized cells from spleens of influenza virus PR8-OVA-infected mice on day 7 p.i. or from in vitro 7 days culture after stimulation with plate-bound anti-​CD3ε (1.0 μg ml−1) and anti-​CD28 mAb (0.5 μg ml−1). Effector T-cell control samples were prepared from SIINFEKL (100 ng ml−1) stimulated OT-I cells after 4 days of in vitro culture with rIL-2 (10 ng/ml) and sorted as CD8+​CD44hi​CD62Llo. Control bona fide effector memory and central memory T cells were sorted from the spleens of PR8-OVA-infected mice on day 42 p.i. Naive cells were sorted as CD8+​CD44lo​CD62Lhi cells from uninfected C57BL/6 mice.

Project description:Inflammatory cytokines promote the accumulation of activated CD8 T cells. Here, we transfer 600 OT-I CD8 T cells iv into naïve C57BL/6 hosts. One day later, 500,000 LPS-matured and OVA257 peptide-coated DC were injected iv into OT-I CD8 T cell seeded hosts with (DC+CpG) or without (DC). Other seeded mice were infected with 2x10^4 virulent Listeria monocytogenes (vLM-OVA) iv. OT-I CD8 T cells were harvested from the spleen, flow sort purified, then RNA was extracted using RNeasy (Qiagen) kit. Naive OT-I CD8 T cells (Naive) were purified from the spleens of OT-I transgenic mice. Each group had three independent biological replicates.Transcriptomes were compared using DAVID analysis (with genes scoring FDR<0.01) and GSEA analysis. 3 biological replicates per group. Groups included Naïve OT-I CD8 T cells, DC+CpG OT-I CD8 T cells, DC OT-I CD8 T cells, and vLM-OVA OT-I CD8 T cells. Most comparisons used Naïve OT-I CD8 T cells as a baseline comparison