Project description:Interleukin-2 (IL-2) plays pivotal roles in directing the differentiation of effector and memory CD8 T cells; nevertheless, the contributions of IL-2 synthesis by CD8 T cells versus sensitivity to IL-2 signals in shaping their developmental fates and protective efficacy is less clear. Here we show that, rather than acting in an autocrine manner, the production of IL-2 by CD8 T cells restricts their ability to receive STAT5-dependent IL-2 signals, and the capacity to manufacture IL-2 delineates constituents of the expanded effector pool that display stem-like features, preferentially survive, more rapidly attain memory traits, and control chronic viral challenges. Despite having distinct properties during the effector phase, IL-2-producing and non-producing CD8 T cells phenotypically coalesce as memory matures to form populations with equal recall abilities. Therefore, the potential to produce IL-2 during the effector but not memory phase is a consequential cellular feature that dictates the protective capabilities of the response.

Project description:IL-2 signals into CD8 T cells have a programming and regulatory role in driving cells to full effector and memory differentiation. This study was designed to look for IL-2 target genes that affect CD8 T cell responses. Experiment Overall Design: Treatment of mice with IL-2/anti-IL-2 immune complexes (IL-2 complex) stimulates all fraction of CD8 T cells in vivo. Because STAT5 phosphorylation peaked 1 h after injection of the IL-2 complex, gene expression in CD8 T cells was compared at 0 h (no treatment), 1 h and 3 h post treatment. Two mice were used for each time point.

Project description:CD25, the high affinity interleukin-2 (IL-2) receptor alpha-chain, is rapidly upregulated by antigen-specific CD8+ T cells after T cell receptor stimulation. We demonstrated that during an acute viral infection, CD25 expression was dynamic, and a subset of virus-specific CD8+ T cells sustained CD25 expression longer than the rest. Examination of the in vivo fate of effector CD8+ T cells exhibiting differential responsiveness to IL-2 revealed that CD25lo cells, which were relatively less sensitive to IL-2, preferentially upregulated CD127 and CD62L and gave rise to the functional long-lived memory pool. In contrast, CD25hi cells that accumulate enhanced IL-2 signals, proliferated more rapidly, were prone to apoptosis, exhibited a more pronounced effector phenotype, and appeared to be terminally differentiated. Sustained IL-2 receptor signaling resulted in increased CD8+ T cell proliferation, higher granzyme B expression and exaggerated contraction after antigen clearance. These data support the hypothesis that prolonged IL-2 signals during priming promote terminal effector differentiation of CD8+ T cells. Experiment Overall Design: An important question in memory development is understanding the differences between effector CD8 T cells that die versus effector cells that survive and give rise to memory cells. In this study we have performed genomic profiling of terminal effectors and memory precursors as defined by CD25 heterogeneity, towards better understanding the generation of these subsets. The two effector subsets were FACS purified based on the amount of cell surface CD25 expression into CD25lo and CD25hi subsets during the early expansion phase (Days 3-4 post-infection) and analyzed for their gene expression profiles (by genome-wide microarray analyses).

Project description:Memory T cells are heterogeneous in terms of their phenotype and functional properties. We investigated the molecular profiles of human CD8 naïve (TN), central memory (TCM), effector memory (TEM), and effector memory RA (TEMRA) T cells using gene expression microarrays and phospho-protein-specific intracellular flow cytometry. We demonstrate that TCM have a gene expression and cytokine signaling signature that lies between that of TN and TEM or TEMRA cells, whereas TEM and TEMRA are closely related. Our data define the molecular basis for the different functional properties of central and effector memory subsets. We show that TEM and TEMRA cells strongly express genes with known importance in CD8 T cell effector function. In contrast, TCM are characterized by high basal and cytokine-induced STAT5 phosphorylation, reflecting their capacity for self-renewal. Altogether, our results distinguish TCM and TEM/TEMRA at the molecular level and are consistent with the concept that TCM represent memory stem cells.

Project description:IL-2 signals into CD8 T cells have a programming and regulatory role in driving cells to full effector and memory differentiation. This study was designed to look for IL-2 target genes that affect CD8 T cell responses. Keywords: Time-course, cytokine treatment Keywords: Expression profiling by array

Project description:Cognate antigen signals control CD8+ T cell priming, expansion size and effector versus memory cell fates, however, it is not clear whether they can also modulate the functional features of memory CD8+ T cells. We observed that OT-I cells that were primed with weak cognate antigen signals incorporate more cytokine signals, leading to a hypothesis that CD8+ T cells that receive weak TCR signals require cytokine signals to form functional memory. Using a previously described mouse model in which IL-2 signaling via its high affinity receptor CD25 is selectively impaired, the “Il2ramut/mut” mouse, we conducted a comparative analysis of gene expression and epigenetic landscape of Il2ramut/mut and WT OT-I memory cells that were primed with strong (Lm-Ova N4) versus weak (Lm-Ova T4). RNA seq data showed that both TCR and IL-2 priming signals have minimal effect on gene expression in resting memory CD8 T cells, but they significantly modify the epigenetic landscape of the memory CD8 T cells. These findings have important contributions to the current understanding of how priming signals program memory CD8 T cells in vivo.

Project description:Cognate antigen signals control CD8+ T cell priming, expansion size and effector versus memory cell fates, however, it is not clear whether they can also modulate the functional features of memory CD8+ T cells. We observed that OT-I cells that were primed with weak cognate antigen signals incorporate more cytokine signals, leading to a hypothesis that CD8+ T cells that receive weak TCR signals require cytokine signals to form functional memory. Using a previously described mouse model in which IL-2 signaling via its high affinity receptor CD25 is selectively impaired, the “Il2ramut/mut” mouse, we conducted a comparative analysis of gene expression and epigenetic landscape of Il2ramut/mut and WT OT-I memory cells that were primed with strong (Lm-Ova N4) versus weak (Lm-Ova T4). RNA seq data showed that both TCR and IL-2 priming signals have minimal effect on gene expression in resting memory CD8 T cells, but they significantly modify the epigenetic landscape of the memory CD8 T cells. These findings have important contributions to the current understanding of how priming signals program memory CD8 T cells in vivo.

Project description:The expansion, trafficking and functional effectiveness of adoptively transferred CD8+ T-cells play a critical role in mediating effective anti-tumor immunity. However, the mechanisms which program the highly proliferative and functional state of CD8+ T-cells are not completely understood. We hypothesized that IL-12, a cytokine commonly induced by TLR activation, could enhance T-cell priming by altering responsiveness to antigen and cytokines. Priming of tumor specific CD8+ T-cells in the presence of IL-12 induced the acquisition of a 'polyfunctional' effector response and increased the generation of memory cells. Moreover, IL-12 priming also promoted high levels of the IL-2 receptor alpha-chain (CD25) and robust IL-2 mediated activation of STAT5. This sensitivity to IL-2 translated into enhanced in vivo proliferation of adoptively transferred CD8+ T-cells. Furthermore, real-time, in vivo imaging of T-cell trafficking confirmed the ability of IL-12 priming to drive in vivo proliferation. IL-12 priming enhanced the anti-tumor function of adoptively transferred cells by reducing established subcutaneous tumor burden, and significantly increasing survival in an established intracranial tumor model. Finally, IL-12 priming of human PBMCs generates tumor specific T-cells phenotypically and functionally similar to IL-12 primed Pmel-1 T-cells. These results highlight IL-12 as an important mediator of CD8+ T-cell effector function and anti-tumor immunity. We primed Pmel-1 TCR transgenic CD8+ T-cells with cognate antigen and either IL-2 or IL-12 and compared their gene expression profiles. This was used to identify pathways or genes necessary for anti-tumor activity in vivo. RNA was isolated from Pmel-1 T-cells primed with antigen and cytokine for 6 days and hybridized to Affymetrix arrays.

Project description:At the peak of the CD8 T cell response to acture viral and bacterial infections, expression of the Interleukin-7 Receptor (IL-7R) marks Memory Precursor Effector CD8 T Cells (MPECs) from other Short-Lived Effector CD8 T cells (SLECs), which are IL-7Rlo. This study was designed to determine the gene expression differences between these two subsets of effector CD8 T cells. Experiment Overall Design: This study compared IL-7Rhi and IL-7Rlo LCMV-specific P14 Transgenic CD8 T cells, sorted from LCMV armstrong infected recipient mice 6/7 days after infection. Data includes 3 independent replicates for the IL-7Rhi and IL-7Rlo groups.

Project description:The rapid response of memory CD8+ T cells is crucial for the body's defense against infection and cancer. However, the mechanisms underlying memory recall responses remain unclear. Here we show that the rapid response of memory T cells is accompanied by the induction of gene expression associated with memory CD8+ T cell activation-recalled genes, which participate in various biological functions, such as response to antigen signals, intracellular phosphorylation kinase signaling pathways, and cytokine production. And the expression of ARGs in memory T cells is closely associated with their epigenetic features. We found that the genomic loci of ARGs in memory T cells exhibit active epigenetic marks, such as increased H2A.Z binding, elevated levels of H3K27 acetylation, enhanced binding of Pol II S5P, and reduced levels of repressive histone mark H3K27me3. Interestingly, H2A.Z plays a crucial role in modulating these epigenetic features. Depletion of H2A.Z results in a reduction in H3K27ac levels, decreased binding of Pol II, increased levels of H3K27me3, and a decrease in chromatin accessibility. Functionally, H2A.Z is essential in quiescent memory CD8+ T cells for generating effector CD8+ T cells, producing effector molecules and effectively eliminating pathogens during recall responses. In addition, H2A.Z deposition at specific ARG gene loci in the genome is mainly regulated by TCR/CD28 signals, and may be partly regulated by IL-7 and IL-15. Overall, these findings demonstrate that H2A.Z orchestrates the epigenetic landscape at ARG gene loci to regulate the recall responses of memory T cells.