Project description:The coinhibitory PD-1 signalling pathway plays a major role in the context of tumor-specific T cell responses. Conversely, it also contributes to the maintenance of peripheral tolerance as patients receiving anti-PD-1 treatment are prone to developing immune-related adverse events. Yet, the physiological role of the PD-1/PDL-1 axis in T cell homeostasis is still poorly understood. Herein, we show that under steady-state conditions, the absence of PD-1 signaling led to a preferential expansion of CD8+ T cells in the liver. These cells exhibited an oligoclonal TCR repertoire and a terminally differentiated exhaustion profile with high levels of the transcription factors TOX and EOMES. Using loss- or gain-of-function strategies, we could demonstrate that EOMES was required for the clonal expansion and acquisition of this differentiation program. Furthermore, single cell transcriptomics coupled to TCR repertoire analysis strongly supported the notion that these cells arise locally from liver-resident memory CD8 T cells. With these results, we uncovered an unexpected role for PD-1 signaling in liver memory T cell homeostasis.

Project description:Memory CD8+ T cells have the ability to provide lifelong immunity against pathogens. Although memory features generally arise after challenge with a foreign antigen, naïve CD8 single positive (SP) thymocytes may acquire phenotypic and functional characteristics of memory cells in response to cytokines such as interleukin-4. This process is associated with the induction of the T-box transcription factor Eomesodermin (EOMES). However, the underlying molecular mechanisms remain ill-defined. Using epigenomic profiling, we show that these innate memory CD8SP cells acquire only a portion of the active enhancer repertoire of conventional memory cells. This reprograming is secondary to EOMES recruitment, mostly to RUNX3-bound enhancers. Furthermore, EOMES is found within chromatin-associated complexes containing BRG1 and promotes the recruitment of this chromatin remodelling factor. Also, the in vivo acquisition of EOMES-dependent program is BRG1-dependent. In conclusion, our results support a strong epigenetic basis for the EOMES-driven establishment of CD8+ T cell innate memory program.

Project description:Conventional CD4 and CD8 single positive T cell lineages constitute the main differentiation pathway in the thymus. In human thymus, a minor TCRαβ differentiation pathway diverges from the early double positive stage, consisting of CD10+ PD-1+ cells. These cells are phenotypically and functionally similar to murine agonist-selected intraepithelial T lymphocyte precursors (IELps) which home to the small intestine. Here, the progeny of the human agonist-selected IEL lineage was identified in antigen-inexperienced cord blood (CB) with a polyclonal T cell receptor (TCR) repertoire exhibiting a bias towards early TCR alpha chain rearrangements and elevated autoreactive indices. Single-cell RNA sequencing allowed further delineation of this unconventional lineage in CB. Trajectory analysis, along with TCR repertoire analysis, transcriptomics and proteomics, suggests a precursor-progeny relationship with the thymic IELps. The distinct, heterogeneous CB population can now be defined as CD3+ TCRαβ+ CD4- CCR7- CD26-. Besides recent thymic emigrants, this population also consists of newly identified effector clusters and previously described populations: the suppressive NK receptor expressing CD8+ Treg population, the KIR/NKG2A+ EOMES+ virtual memory population and the CD8αα+ T cell populations. The population shows a discriminating stable HELIOS expression and is exclusively able to downregulate CD8β expression, resulting in double negative T cells. The functional properties of this population suggest that the cells expand on inflammatory cues and exert cytotoxic and proinflammatory activity.

Project description:Homeostatic PD-1 signalling restrains Eomes-dependent oligoclonal expansion of liver- resident CD8 T cells.

Project description:Homeostatic PD-1 signalling restrains Eomes-dependent oligoclonal expansion of liver- resident CD8 T cells [ATAC-seq]

Project description:Homeostatic PD-1 signalling restrains Eomes-dependent oligoclonal expansion of liver- resident CD8 T cells [scRNA-seq]

Project description:Ag recognition via the TCR is necessary for the expansion of specific T cells that then contribute to adaptive immunity as effector and memory cells. Because CD4+ and CD8+ T cells differ in terms of their priming APCs and MHC ligands we compared their requirements of Ag persistence during their expansion phase side by side. Proliferation and effector differentiation of TCR transgenic and polyclonal mouse T cells were thus analyzed after transient and continuous TCR signals. Following equally strong stimulation, CD4+ T cell proliferation depended on prolonged Ag presence, whereas CD8+ T cells were able to divide and differentiate into effector cells despite discontinued Ag presentation. CD4+ T cell proliferation was neither affected by Th lineage or memory differentiation nor blocked by coinhibitory signals or missing inflammatory stimuli. Continued CD8+ T cell proliferation was truly independent of self-peptide/MHC-derived signals. The subset divergence was also illustrated by surprisingly broad transcriptional differences supporting a stronger propensity of CD8+ T cells to programmed expansion. These T cell data indicate an intrinsic difference between CD4+ and CD8+ T cells regarding the processing of TCR signals for proliferation. We also found that the presentation of a MHC class II–restricted peptide is more efficiently prolonged by dendritic cell activation in vivo than a class I bound one. In summary, our data demonstrate that CD4+ T cells require continuous stimulation for clonal expansion, whereas CD8+ T cells can divide following a much shorter TCR signal.

Project description:The developmental origins of memory T cells remain controversial. During the expansion phase of acute viral infection, we identified a distinct subset of virus-specific CD8+ T cells that possessed unique characteristics including expression of CD62L, TCF-1 and Eomes; relative quiescence; expression of activation markers; and features of limited effector differentiation. These cells were a quantitatively minor subpopulation of the TCF-1+ pool and exhibited self-renewal, heightened DNA damage surveillance activity, and preferential long-term recall capacity. Despite features of memory and somewhat restrained proliferation during the expansion phase, this subset displayed evidence of stronger TCR signaling than other responding CD8+ T cells, coupled with elevated expression of multiple inhibitory receptors including PD-1, LAG-3, CTLA-4, CD5, and CD160. Indeed, genetic ablation of PD-1 and LAG-3 compromised the formation of this CD62Lhi TCF-1+ subset and subsequent CD8+ T cell memory. Although central memory phenotype CD8+ T cells (TCM) were formed in the absence of these cells, subsequent memory CD8+ T cell recall responses were compromised. Together, these results suggest a parsimonious model wherein there is more than a single developmental origin of long-term memory CD8+ T cells, and point to novel links between genome integrity, regulation of signal intensity during priming, inhibitory receptors and generation of long-term CD8+ T cell memory. To gain deeper insight into the biology of this CD62Lhi subset, we performed RNAseq on purified CD62Lhi, IL-7Rαhi and KLRG1hi subsets on day 8 post LCMV Arm infection and included naive P14 CD8+ T cells from uninfected mice as a control.

Project description:Memory CD8 T cells have a unique ability to provide lifelong immunity against pathogens. Although memory features generally arise after a challenge with foreign antigen, naïve CD8 single positive (SP) thymocytes may already acquire phenotypic and functional characteristics of memory cells in response to cytokines such as interleukin-4. This process is associated with the induction of the T-box transcription factor Eomesodermin (EOMES). However, the underlying molecular mechanisms remain ill-defined. Using epigenomic profiling, we show that these “innate memory” CD8SP cells acquire only a portion of the active enhancer repertoire of conventional memory cells. This reprograming was secondary to EOMES recruitment, mostly to RUNX3-bound enhancers. Furthermore, we identified direct interaction between EOMES and BRG1 and showed that in vivo acquisition of EOMES-dependent program by CD8SP thymocytes was dependent on this chromatin remodeling factor. In conclusion, our results support a strong epigenetic basis for EOMES-driven establishment of CD8 T cell unconventional memory program.

Project description:Memory CD8 T cells have a unique ability to provide lifelong immunity against pathogens. Although memory features generally arise after a challenge with foreign antigen, naïve CD8 single positive (SP) thymocytes may already acquire phenotypic and functional characteristics of memory cells in response to cytokines such as interleukin-4. This process is associated with the induction of the T-box transcription factor Eomesodermin (EOMES). However, the underlying molecular mechanisms remain ill-defined. Using epigenomic profiling, we show that these “innate memory” CD8SP cells acquire only a portion of the active enhancer repertoire of conventional memory cells. This reprograming was secondary to EOMES recruitment, mostly to RUNX3-bound enhancers. Furthermore, we identified direct interaction between EOMES and BRG1 and showed that in vivo acquisition of EOMES-dependent program by CD8SP thymocytes was dependent on this chromatin remodeling factor. In conclusion, our results support a strong epigenetic basis for EOMES-driven establishment of CD8 T cell unconventional memory program.