The magnitude of T cell responses to infection is a function of the naïve T cell repertoire combined with the context and duration of antigen presentation. Using mass spectrometry, we identify and ...quantify 21 class 1 MHC-restricted influenza A virus (IAV)-peptides following either direct or cross-presentation. All these peptides, including seven novel epitopes, elicit T cell responses in infected C57BL/6 mice. Directly presented IAV epitopes maintain their relative abundance across distinct cell types and reveal a broad range of epitope abundances. In contrast, cross-presented epitopes are more uniform in abundance. We observe a clear disparity in the abundance of the two key immunodominant IAV antigens, wherein direct infection drives optimal nucleoprotein (NP)
presentation, while cross-presentation is optimal for acid polymerase (PA)
presentation. The study demonstrates how assessment of epitope abundance in both modes of antigen presentation is necessary to fully understand the immunogenicity and response magnitude to T cell epitopes.
The anti-viral T cell response is drawn from the naive T cell repertoire. During influenza infection, the CD8+ T cell response to an H-2Db-restricted nucleoprotein epitope (NP366) is characterized by ...preferential expansion of T cells bearing TRBV13+ T cell receptors (TCRs) and avoidance of TRBV17+ T cells, despite the latter dominating the naive precursor repertoire. We found two TRBV17+ TCRs that bound H-2Db-NP366 with a 180° reversed polarity compared to the canonical TCR-pMHC-I docking. The TRBV17 β-chain dominated the interaction and, whereas the complementarity determining region-3 (CDR3) loops exclusively mediated contacts with the MHC-I, peptide specificity was attributable to germline-encoded recognition. Nevertheless, the TRBV17+ TCR exhibited moderate affinity toward H-2Db-NP366 and was capable of signal transduction. Thus, the naive CD8+ T cell pool can comprise TCRs adopting reversed pMHC-I docking modes that limit their involvement in the immune response.
•TCRs found on naive T cells ligate pMHC-I in a 180° reversed orientation•CD8+ T cells expressing “reversed” TCRs contribute minimally to the immune response•Reversed TCR recognition drives limited signal transduction and T cell function•Unconventionally docking TCRs may be prevalent in the naive pool
Gras et al. show that TCRs from the naive repertoire recognize pMHC-I in a reversed orientation in comparison to the consensus TCR-pMHC-I docking. This reversed docking was associated with poor CD8+ T cell responses. Thus, naive T cells may exhibit a range of unconventional TCR-pMHC-I docking modes.
Tissue health is dictated by the capacity to respond to perturbations and then return to homeostasis. Mechanisms that initiate, maintain, and regulate immune responses in tissues are therefore ...essential. Adaptive immunity plays a key role in these responses, with memory and tissue residency being cardinal features. A corresponding role for innate cells is unknown. Here, we have identified a population of innate lymphocytes that we term tissue-resident memory-like natural killer (NKRM) cells. In response to murine cytomegalovirus infection, we show that circulating NK cells were recruited in a CX3CR1-dependent manner to the salivary glands where they formed NKRM cells, a long-lived, tissue-resident population that prevented autoimmunity via TRAIL-dependent elimination of CD4+ T cells. Thus, NK cells develop adaptive-like features, including long-term residency in non-lymphoid tissues, to modulate inflammation, restore immune equilibrium, and preserve tissue health. Modulating the functions of NKRM cells may provide additional strategies to treat inflammatory and autoimmune diseases.
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•NK cells are recruited and retained in non-lymphoid tissues after CMV infection•NK cells form a long-lived, tissue-resident, memory-like population: NKRM cells•NKRM regulation of CD4+ T cell responses in the SG requires TRAIL•NKRM cells prevent immune-mediated damage and safeguard optimal tissue function
Immune activation can be damaging if responses are not adequately controlled. Schuster et al. reveal that following cytomegalovirus infection, circulating natural killer cells are recruited into non-lymphoid tissues, including the salivary glands, where they establish a tissue-resident, memory-like population that prevents immune-mediated damage and safeguards tissue health by preventing autoimmunity.
In advanced age, decreased CD8⁺ cytotoxic T-lymphocyte (CTL) responses to novel pathogens and cancer is paralleled by a decline in the number and function of naïve CTL precursors (CTLp). Although the ...age-related fall in CD8⁺ T-cell numbers is well established, neither the underlying mechanisms nor the extent of variation for different epitope specificities have been defined. Furthermore, naïve CD8⁺ T cells expressing high levels of CD44 accumulate with age, but it is unknown whether this accumulation reflects their preferential survival or an age-dependent driver of CD8⁺ T-cell proliferation. Here, we track the number and phenotype of four influenza A virus (IAV)-specific CTLp populations in naïve C57BL/6 (B6) mice during aging, and compare T-cell receptor (TCR) clonal diversity for the CD44hi and CD44lo subsets of one such population. We show differential onset of decline for several IAV-specific CD8⁺ T-cell populations with advanced age that parallel age-associated changes in the B6 immunodominance hierarchy, suggestive of distinct impacts of aging on different epitope-specific populations. Despite finding no evidence of clonal expansions in an aged, epitope-specific TCR repertoire, nonrandom alterations in TCR usage were observed, along with elevated CD5 and CD8 coreceptor expression. Collectively, these data demonstrate that naïve CD8⁺ T cells expressing markers of heightened self-recognition are selectively retained, but not clonally expanded, during aging.
Age-associated decreases in primary CD8+ T cell responses occur, in part, due to direct effects on naive CD8+ T cells to reduce intrinsic functionality, but the precise nature of this defect remains ...undefined. Aging also causes accumulation of antigen-naive but semi-differentiated “virtual memory” (TVM) cells, but their contribution to age-related functional decline is unclear. Here, we show that TVM cells are poorly proliferative in aged mice and humans, despite being highly proliferative in young individuals, while conventional naive T cells (TN cells) retain proliferative capacity in both aged mice and humans. Adoptive transfer experiments in mice illustrated that naive CD8 T cells can acquire a proliferative defect imposed by the aged environment but age-related proliferative dysfunction could not be rescued by a young environment. Molecular analyses demonstrate that aged TVM cells exhibit a profile consistent with senescence, marking an observation of senescence in an antigenically naive T cell population.
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•Aged TVM cells exhibit a defect in proliferation with TCR, but not IL-15, signaling•Transfer of aged CD8 T cells to a young environment cannot recover the TVM defect•By contrast, TN cells show a marked retention of proliferative capacity with age•Aged TVM cells exhibit a profile consistent with senescence, not exhaustion
CD8 T cell responses decline with age, but virtual memory T (TVM) cells accumulate. Quinn et al. demonstrate that TVM cells lose the ability to proliferate in response to TCR signals, but not IL-15, with increasing age. Aged TVM cells express transcriptional and phenotypic markers of senescence, rather than exhaustion.
Virus infection triggers large-scale changes in the phenotype and function of naive CD8
T cells, resulting in the generation of effector and memory T cells that are then critical for immune ...clearance. The T-BOX family of transcription factors (TFs) are known to play a key role in T cell differentiation, with mice deficient for the TF T-BET (encoded by
unable to generate optimal virus-specific effector responses. Although the importance of T-BET in directing optimal virus-specific T cell responses is accepted, the precise timing and molecular mechanism of action remains unclear. Using a mouse model of influenza A virus infection, we demonstrate that although T-BET is not required for early CD8
T cell activation and cellular division, it is essential for early acquisition of virus-specific CD8
T cell function and sustained differentiation and expansion. Whole transcriptome analysis at this early time point showed that
deficiency resulted in global dysregulation in early programming events with inappropriate lineage-specific signatures apparent with alterations in the potential TF binding landscape. Assessment of histone posttranslational modifications within the
locus demonstrated that
CD8
T cells were unable to activate "poised" enhancer elements compared with wild-type CD8
T cells, correlating with diminished
transcription. In all, these data support a model whereby T-BET serves to promote appropriate chromatin remodeling at specific gene loci that underpins appropriate CD8
T cell lineage-specific commitment and differentiation.
Naive CD8+ T cell activation results in an autonomous program of cellular proliferation and differentiation. However, the mechanisms that underpin this process are unclear. Here, we profile ...genome-wide changes in chromatin accessibility, gene transcription, and the deposition of a key chromatin modification (H3K27me3) early after naive CD8+ T cell activation. Rapid upregulation of the histone demethylase KDM6B prior to the first cell division is required for initiating H3K27me3 removal at genes essential for subsequent T cell differentiation and proliferation. Inhibition of KDM6B-dependent H3K27me3 demethylation limits the magnitude of an effective primary virus-specific CD8+ T cell response and the formation of memory CD8+ T cell populations. Accordingly, we define the early spatiotemporal events underpinning early lineage-specific chromatin reprogramming that are necessary for autonomous CD8+ T cell proliferation and differentiation.
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•Naive CD8+ T cell activation results in chromatin changes prior to first cell division•The H3K27me3 demethylase KDM6B is rapidly upregulated upon T cell activation•H3K27me3 demethylation occurs in a stepwise manner ensuring optimal T cell activation•Perturbation of KDM6B function results in suboptimal virus-specific CD8+ T cell memory
Li et al. demonstrate that naive CD8+ T cell activation results in extensive KDM6B-dependent chromatin demethylation prior to first cell division. Inhibition of early chromatin demethylation resulted in dysregulated T cell activation and suboptimal virus-specific CD8+ effector and memory T cell responses.
NF-κB2/p100 (p100) is an inhibitor of κB (IκB) protein that is partially degraded to produce the NF-κB2/p52 (p52) transcription factor. Heterozygous NFKB2 mutations cause a human syndrome of ...immunodeficiency and autoimmunity, but whether autoimmunity arises from insufficiency of p52 or IκB function of mutated p100 is unclear. Here, we studied mice bearing mutations in the p100 degron, a domain that harbors most of the clinically recognized mutations and is required for signal-dependent p100 degradation. Distinct mutations caused graded increases in p100-degradation resistance. Severe p100-degradation resistance, due to inheritance of one highly degradation-resistant allele or two subclinical alleles, caused thymic medullary hypoplasia and autoimmune disease, whereas the absence of p100 and p52 did not. We inferred a similar mechanism occurs in humans, as the T cell receptor repertoires of affected humans and mice contained a hydrophobic signature of increased self-reactivity. Autoimmunity in autosomal dominant NFKB2 syndrome arises largely from defects in nonhematopoietic cells caused by the IκB function of degradation-resistant p100.
Naive CD8
T cell survival in the periphery is critically dependent on tonic TCR signaling through peptide + MHC class I (MHCI) recognition; however, little is known about how natural variation in ...MHCI levels impacts the naive CD8
T cell repertoire. Using mice that are hemizygous or homozygous for a single MHCI allele, we showed that despite a reduction in peripheral CD8
T cell numbers of ∼50% in MHCI hemizygous mice, MHCI levels had no notable impact on the rate of thymic generation or emigration of CD8 single-positive T cells. Moreover, the peripheral T cell repertoire in hemizygous mice showed selective retention of T cell clonotypes with a greater competitive advantage as evidenced by increased expression of CD5 and IL-7Rα. The qualitative superiority of CD8
T cells retained in hemizygous mice was also seen during influenza A virus infection, in which epitope-specific CD8
T cells from hemizygous mice had a higher avidity for pMHCI and increased cytokine polyfunctionality, despite a reduced response magnitude. Collectively, this study suggests that natural variation in MHCI expression levels has a notable and biologically relevant impact on the maintenance, but not generation, of the naive CD8
T cell repertoire.