Down-regulation of CXCR4 expression on human CD8+ T cells during peripheral differentiation

Multi-color flow cytometric analysis on human CD8(+) T cell subsets revealed that CXCR4 is predominantly expressed on CD8(+) T cells with the naive CD27(+)CD28(+)CD45RA(+) phenotype, and is down-regulated during differentiation into those with an effector phenotype. The down-regulation of CXCR4 expression during peripheral differentiation was supported by the fact that the expression of CXCR4 on CD8(+) T cells was negatively correlated with that of perforin. The analysis of CCR5, CCR7, and CXCR4 co-expression further showed that CD8(+) T cells expressing a high level of CXCR4 are CCR7(+)CCR5(-) naive or central memory subsets, and those expressing a low level of CXCR4 were included in the CCR7(-)CCR5(+/-) memory/effector and effector subsets. Epstein Barr virus-specific CD8(+) T cells, which mostly express the memory phenotype, expressed CXCR4, while human cytomegalovirus-specific CD8(+) T cells, which mostly express the effector phenotype, partially expressed this receptor, showing that the expression of CXCR4 is also down-regulated during differentiation of viral antigen-specific CD8(+) T cells. The classification of human CD8(+) T cells based on the expression of these chemokine receptors should prove useful for studies that clarify the differentiation of human CD8(+) T cells.     

DNA vaccines prime CD8+ T cell responses to epitopes of viral antigens produced from overlapping reading frames of a single coding sequence

A hepatitis B virus (HBV)-derived sequence that encodes the 832-residue polymerase (Pol) protein of HBV in the primary open reading frame (ORF), and the three (large, middle and small) hepatitis B surface antigen (HBsAg) variants in an alternative ORF was used. This sequence was cloned into expression vectors in which Pol was expressed under heterologous (HCMV, SV40 or metallothionin) promoter control. Some Pol-encoding vectors coexpressed Pol as well as readily detectable amounts of HBsAg. Efficient HBsAg expression depended on endogenous HBV promoter sequences but was apparently also facilitated by heterologous promoter sequences located upstream of the HBV Pol sequence. DNA immunization of mice efficiently coprimed CD8(+) T cell responses to epitopes of Pol and HBsAg. Over expression of Pol (using an hsp73-facilitated expression system) did not correlate with the immunogenicity of the K(d)/Pol(140-148) epitope. Immunodominant L(d)-restricted CD8(+) T cell responses to HBsAg down-modulated priming of CD8(+) T cell responses to other HBsAg epitopes but not to the K(d)/Pol(140-148) epitope. Different antigens transcribed from alternative reading frames of a single sequence in a DNA vaccine can thus efficiently prime multispecific T cell responses.     

Evolution of diverse antiviral CD8+ T cell populations after murine cytomegalovirus infection

Cytomegalovirus (CMV) is a major human pathogen normally controlled by cellular immune responses. The infection can be modeled in the mouse using murine CMV (MCMV). During the latent phase of infection, two different patterns of CD8(+) T cell responses have been observed: some specificities show increasing frequencies over time ("memory inflation"), while others, which are present acutely, are barely detectable at later time points. This distinction is independent of initial immunodominance. We analyzed the extent to which such responses differ functionally and tracked both their population distribution and their evolution over time. We observed two clear patterns of memory development that diverged early after infection. Acutely, CD8(+) T cells directed against all epitopes showed similar activation, phenotype and distribution. Thereafter, one set of responses ("inflationary") increased in frequency over time, was found in high numbers in non-lymphoid organs and was associated with an activated (CD28(low) CD27(low)CD122(low)) phenotype. In contrast, CD8(+) T cells responses specific for other MCMV epitopes ("non-inflationary") showed a slow reversion to a classical "central" memory phenotype without enrichment in non-lymphoid organs. A simple model to describe the equilibrium state in MCMV is presented, which may point to previously unexplored antiviral populations present after human CMV infection.     

Lactobacillus casei reduces CD8+ T cell-mediated skin inflammation

Probiotics, including Lactobacilli, have been postulated to alleviate allergic and inflammatory diseases, but evidence that they exert an anti-inflammatory effect by immune modulation of pathogenic T cell effectors is still lacking. The aim of this study was to examine whether L. casei could affect antigen-specific T cell-mediated skin inflammation. To this end, we used contact hypersensitivity to the hapten 2,4-dinitrofluorobenzene, a model of allergic contact dermatitis mediated by CD8+ CTL and controlled by CD4+ regulatory T cells. Daily oral administration of fermented milk containing L. casei or L. casei alone decreased skin inflammation by inhibiting the priming/expansion of hapten-specific IFN-gamma-producing CD8+ effector T cells. The down-regulatory effect of the probiotics required the presence of CD4+ T cells, which control the size of the hapten-specific CD8+ T cell pool primed by skin sensitization. L. casei cell wall was as efficient as live L. casei to regulate both the CHS response and the hapten-specific CD8+ T cell response, suggesting that cell wall components contribute to the immunomodulatory effect of L. casei. This study provides the first evidence that oral administration of L. casei can reduce antigen-specific skin inflammation by controlling the size of the CD8+ effector pool.     

Priming of CD8+ T cell responses following immunization with heat-killed Plasmodium sporozoites

Protective immune responses against malaria are induced by immunization with radiation-attenuated Plasmodium sporozoites. In contrast, non-viable, heat-killed sporozoites do not induce protection, emphasizing the requirement for live parasites to achieve effective immune responses. Using an experimental system with CD8+ T cells from T cell receptor-transgenic mice, we analyzed the primary CD8+ T cell responses elicited by heat-killed inactivated sporozoites. We found that the numbers of specific CD8+ T cells induced were much lower compared to when immunizing with attenuated sporozoites; however, the kinetics of activation and the phenotype of these T cells were similar in both groups. Despite their low frequency after priming, high numbers of specific CD8+ T cells were observed after boosting with a recombinant vaccinia virus. Upon induction of the recall response, the same level of protection was observed when either heat-killed or attenuated sporozoites were used for priming. We propose that live parasites are not critical for the induction of memory T cell populations against the malaria liver stages.     

Altered primary CD8+ T cell response to a modified virus Ankara(MVA)-vectored vaccine in the absence of CD4+ T cell help

T cell receptor-transgenic F5 mice were used to assess primary CD8+ T cell responses to a modified virus Ankara (MVA)-vectored vaccine in the absence of CD4+ T cell help. Naive, CD8-enriched, CFSE-labelled F5 cells were transferred into normal or CD4+ cell-depleted mice and the mice were vaccinated with MVA.HIVA-NP. At different time points during the primary response, F5 cells were re-isolated and analysed on divisional basis for a number of parameters. We demonstrated that the primary CD8+ T cell response in the absence of CD4+ T cell help differed from that in normal CD4+ cell-undepleted mice. While in the absence of CD4+ T cell help, the initial migratory progress from the local response to a systemic one was not grossly affected, the proportion of dying F5 cells during the expansion phase was markedly increased and resulted in an overall smaller expansion and significantly decreased frequency of CD8+ T cell memory after contraction. T cells primed without help displayed accelerated proliferation and activation, while expression of interferon-gamma remained similar. These phenomena were observed in the lymph nodes draining the MVA.HIVA-NP immunization site and were similar, but delayed by 2-3 days in spleen and non-draining lymph nodes.     

Novel method for detection of virus-specific CD41+ T cells indicates a decreased EBV-specific CD4+ T cell response in untreated HIV-infected subjects

A lower function of EBV-specific CD8(+) T cells in HIV-infected subjects could be related to a lack of specific CD4(+) T cell help. Therefore, we studied EBV-specific CD4(+) T cells in both healthy donors and untreated or highly active antiretroviral therapy (HAART)-treated HIV-seropositive homosexual men. To this end, PBMC were stimulated with overlapping peptide pools from a latent and a lytic EBV protein, EBV nuclear antigen (EBNA)1 and EBV lytic-switch protein ZEBRA (BZLF1), respectively. EBV-specific CD4(+) T cell frequencies measured directly ex vivo were low. To measure EBV-specific memory CD4(+) T cells, capable of both expansion and IFN-gamma production upon antigenic challenge, we developed a specific and reproducible assay, combining ex vivo expansion of specific T cells with flow cytometric analysis of IFN-gamma production. Untreated HIV-infected individuals had a lower CD4(+) T cell response to both EBNA1 and BZLF1 as compared to healthy EBV carriers and HAART-treated HIV-positive subjects. This suggests loss of EBV-specific CD4(+) T cells due to HIV infection, while HAART might restore this response. In addition, we found an increase in the EBNA1-specific CD8(+) T cell response in HAART-treated subjects. Interestingly, numbers of EBV-specific CD4(+) and CD8(+) T cells were inversely correlated with EBV viral load, suggesting an important role also for EBV-specific CD4(+) T cells in the control of EBV infection.     

Unidirectional development of CD8+ central memory T cells into protective Listeria-specific effector memory T cells

Three distinct subsets of antigen-experienced CD8(+) T cells have been identified so far: short-living effector T cells (T(EC)) and two long-living subsets, described as central (T(CM)) and effector memory (T(EM)) T cells. The lineage relationships of these subpopulations as well as their involvement in protection have not yet been conclusively determined. We recently described a novel marker combination (CD127 and CD62L) to identify all three major CD8(+) T cell subsets in mice infected with Listeria monocytogenes (L.m.). Extensive lineage relationship analyses on highly purified subpopulations after in vitro and in vivo stimulation demonstrated that T(CM) can develop into T(EM) or T(EC), whereas T(EM) can only progress to T(EC) cells. Short-living T(EC) never regained a T(EM) or T(CM) phenotype. These data strongly suggest a hierarchical and unidirectional order of developmental stages. In vivo priming protocols that preferentially induced one of the different CD8(+) T cell subsets demonstrated that predominance of T(EM) (CD40 stimulation) correlated best with effective protection against L.m., whereas generation of neither T(CM) (by immunization with heat-killed L.m.) nor T(EC) (by systemic co-administration of CpG during primary infection) conferred substantial long-term protective immunity. These findings have important implications for the design of more effective T cell-based vaccines.     

Specificity, magnitude, and kinetics of MOG-specific CD8+ T cell responses during experimental autoimmune encephalomyelitis

Experimental autoimmune encephalomyelitis (EAE) has traditionally been thought to be almost exclusively mediated by CD4(+) effector T cells. Here, we provide evidence for the existence of mouse CD8(+) T cells that are specific for an epitope of the myelin oligodendrocyte glycoprotein (MOG). Using a panel of truncated MOG peptides, we have identified the minimal epitope recognized by these T cells as MOG 37-46. This peptide, while possessing relatively low affinity for H-2D(b), efficiently stimulates IFN-gamma production from MOG-specific CD8(+) T cell lines in vitro and induces EAE in vivo. To further characterize the magnitude and kinetics of expansion of the MOG-specific CD8(+) T cell population in vivo, we used MOG 37-50/H-2D(b) MHC tetramers to visualize MOG-specific CD8(+) effectors in the peripheral lymphoid organs and central nervous system during the course of EAE induction and progression. Our results identify MOG-specific CD8(+) T cells in the central nervous system prior to and after the onset of disease, suggesting that CD8(+) T cells are a possible target for therapeutic intervention during EAE.     

Differences between CD8+ T cells in lupus-prone (NZB x NZW) F1 mice and healthy (BALB/c x NZW) F1 mice may influence autoimmunity in the lupus model

Immunization with portions of a murine antibody to DNA induced Ig peptide-reactive peripheral CD8+ inhibitory T (Ti) cells in non-autoimmune (BALB/c x NZW) F1 (CWF1) mice. Those Ti suppressed in vitro production of IgG anti-DNA by lymphocytes from MHC-matched, lupus-prone (NZB x NZW) F1 (BWF1) mice, primarily via secretion of transforming growth factor-beta (TGF-beta). However, splenic CD8+ cells from immunized BWF1 mice failed to suppress anti-DNA. Therefore, BWF1 mice were studied for defects in peripheral CD8+ T cells. The potential to suppress autoimmunity mediated by activated CD4+ helper T and B cells in BWF1 mice was assessed. As BWF1 mice aged, peripheral CD8+ T cells expanded little; fewer than 10% displayed surface markers of activation and memory. In contrast, quantities of splenic CD4+ T and B cells increased; high proportions displayed activation/memory markers. In old compared to young BWF1 mice, splenic cell secretion of two cytokines required for generation of CD8+ T effectors, IL-2 and TGF-beta, was decreased. Immunizing BWF1 mice activated peptide-reactive CD8+ T cells, but their number was decreased compared to young BWF1 or old normal mice. While peptide-reactive splenic CD8+ T cells from immunized BWF1 mice did not survive in short-term cultures, similar CD8+ T cell lines from immunized CWF1 mice expanded and on transfer into BWF1 mice delayed autoimmunity and prolonged survival. Therefore, CD8+ T cells in old BWF1 mice are impaired in expansion, acquisition of memory, secretion of cytokine, and suppression of autoimmunity. Understanding these defects might identify targets for therapy in systemic lupus erythematosus.     

CD8 alpha alpha homodimer expression and role in CD8 T cell memory generation during influenza virus A infection in mice

While the precise function of CD8alphaalpha homodimer expression on peripheral T cells is uncertain, recent evidence indicates that it facilitates survival and differentiation of lymphocytic choriomeningitis virus (LCMV)-specific memory CD8alphabeta T cell precursors in vivo. Here, we show that the CD8alphaalpha homodimer is also transiently up-regulated on influenza A virus-specific CD8alphabeta T cells after infection in vivo, temporally correlating with increased levels of the memory T cell development- and survival-related molecules IL-7Ralpha and Bcl-2, respectively. Unlike with LCMV, however, deletion of the CD8alphaalpha enhancer I does not abrogate CD8alphaalpha homodimer expression or manifest a significant impact on the generation of virus-specific, functional effector and central memory T cells in influenza A virus infection. These results demonstrate that the role of CD8alphaalpha in the generation of antiviral CD8 T cell memory is complex, presumably because various viral stimuli differentially regulate CD8alphaalpha expression. Further studies are needed to define those ligands that induce CD8alphaalpha on T cells during acute viral infections, and the general relevance of this process to memory T cell formation.     

Aging-dependent generation of suppressive CD4+CD25-R123loCD103+ T cells in mice

Advancing age is associated with significant alterations in immune functions, including a decline in CD4 T cell function, in both mice and humans. In our previous report, we showed that CD4(+)CD25(-) T cells in aged (24-month-old) mice, especially after in vitro pre-stimulation of these cells, exhibit hyporesponsive and suppressive properties. We examined here whether the suppressive activity of aged CD4(+)CD25(-) T cells is ascribable to a particular population within these cells. In vitro analyses revealed that cell populations rapidly extruding Rhodamine-123 (R123) (referred to as R123(lo) cells) in aged CD4(+)CD25(-) T cells have a more potent suppressive function compared with R123(hi) populations.In addition, CD103(+) cells in freshly prepared aged CD4(+)CD25(-)R123(lo) T cells had a most potent suppressive activity. Both R123(hi) and R123(lo) populations had individually stronger suppressive activity after pre-stimulation than before pre-stimulation. Furthermore, the R123(lo) population in young CD4(+)CD25(-) T cells also had different properties from R123(hi) T cells: low responsiveness, no additive effect in proliferation assays, and the gain of a suppressive function after in vitro pre-stimulation. Taken together, these results suggest that CD4(+)CD25(-)R123(lo) T cells are a unique population within whole CD4(+)CD25(-) T cells. This population exists in the early stage of the life span, and the properties in this population become obvious with aging, that is the gain of their suppressive activity.     

CD8+ T cell contributions to allergen induced pulmonary inflammation and airway hyperreactivity

The pathogenesis of asthma has been linked to the production of type 2 cytokines, which can be expressed by several cell types in the lung. These studies investigated CD8(+) T cell responses in a murine cockroach antigen (CRA) model of asthma. The results from these present studies show that depletion of CD8(+) T cells after allergen sensitization to CRA significantly reduces airway hyperreactivity, airway eosinophilia and pulmonary type 2 cytokine levels. The data demonstrate that CD8(+) T cells from CRA-sensitized mice can produce type 2 cytokines IL-4, IL-5 and IL-13 upon antigen challenge, and that the transfer of these cells into naive mice will cause airway hyperreactivity when exposed to CRA. We found that the transferred airway response is dependent on both IL-4 and IL-13 from CD8(+) T cells using cytokine knockout mice. Compared to CD4(+) T cells, CD8(+) T cells were not as numerous in the lungs of sensitized and challenged mice, but were as efficacious in the transfer of airway disease. The most severe airway response was observed when both CD4(+) and CD8(+) T cells were transferred at the same time. Altogether, these studies highlight a role for CD8(+) T lymphocytes in the development of allergen-induced airway responses.     

IL-4Ralpha signaling is important for CD8+ T cell cytotoxicity in the absence of CD4+ T cell help

Cytotoxic CD8(+) T cells are key mediators of viral clearance during primary infection through their production of IFN-gamma and lysis of virally infected cells. Comparatively, the cytokines IL-4 and IL-13 are typically associated with the development of Th2 immune responses against allergens and parasites, while their influence on cytotoxic CD8(+) T cell responses is controversial. We have investigated the roles of IL-4 and IL-13 in the development of CD8(+) T cell responses against influenza infection. We show that in the absence of either IL-4 or IL-13, CD8(+) T cells proliferated and a normal secondary cytotoxic response developed in vitro. In striking contrast, the absence of IL-4Ralpha resulted in impaired ex vivo proliferation and consequently no secondary CTL activity, whereas the in vivo response appeared normal. We show that the presence of CD4(+) T cell help, or the addition of exogenous IL-2 in vitro, restored the response. Taken together, this work reveals previously unrecognized in vivo redundancies between IL-4, IL-13 and IL-2 during immune responses against influenza virus.     

Incomplete effector/memory differentiation of antigen-primed CD8+ T cells in gene gun DNA-vaccinated mice

DNA vaccination is an efficient way to induce CD8+ T cell memory, but it is still unclear to what extent such memory responses afford protection in vivo. To study this, we induced CD8+ memory responses directed towards defined viral epitopes, using DNA vaccines encoding immunodominant MHC class I-restricted epitopes of lymphocytic choriomeningitis virus covalently linked to beta2-microglobulin. This vaccine construct primed for a stronger recall response than did a more conventional minigene construct. Despite this, vaccinated mice were only protected against systemic infection whereas protection against the consequences of peripheral challenge was limited. Phenotypic analysis revealed that DNA vaccine-primed CD8+ T cells in uninfected mice differed from virus-primed CD8+ T cells particularly regarding expression of very-late antigen (VLA)-4, an adhesion molecule important for targeting T cells to inflammatory sites. Thus, our DNA vaccine induces a long-lived memory CD8+ T cell population that provides efficient protection against high-dose systemic infection. However, viral replication in solid non-lymphoid organs is not curtailed sufficiently fast to prevent significant virus-induced inflammation. Our results suggest that this is due to qualitative limitations of the primed CD8+ T cells.     

Decreased specific CD8+ T cell cross-reactivity of antigen recognition following vaccination with Melan-A peptide

The aim of T cell vaccines is the expansion of antigen-specific T cells able to confer immune protection against pathogens or tumors. Although increase in absolute cell numbers, effector functions and TCR repertoire of vaccine-induced T cells are often evaluated, their reactivity for the cognate antigen versus their cross-reactive potential is rarely considered. In fact, little information is available regarding the influence of vaccines on T cell fine specificity of antigen recognition despite the impact that this feature may have in protective immunity. To shed light on the cross-reactive potential of vaccine-induced cells, we analyzed the reactivity of CD8(+) T cells following vaccination of HLA-A2(+) melanoma patients with Melan-A peptide, incomplete Freund's adjuvant and CpG-oligodeoxynucleotide adjuvant, which was shown to induce strong expansion of Melan-A-reactive CD8(+) T cells in vivo. A collection of predicted Melan-A cross-reactive peptides, identified from a combinatorial peptide library, was used to probe functional antigen recognition of PBMC ex vivo and Melan-A-reactive CD8(+) T cell clones. While Melan-A-reactive CD8(+) T cells prior to vaccination are usually constituted of widely cross-reactive naive cells, we show that peptide vaccination resulted in expansion of memory T cells displaying a reactivity predominantly restricted to the antigen of interest. Importantly, these cells are tumor-reactive.     

Switching from a restricted to an effective CD4 T cell response by activating CD8+ murine dendritic cells with a Toll-like receptor 9 ligand

Freshly isolated quiescent splenic dendritic cell (DC) subtypes differ in their capacity to activate naive CD4 T cells in culture. The CD8+ DC showed a reduced capacity to stimulate T cell proliferation compared to either of the CD8- DC subsets, regardless of antigen and DC dose. In contrast to CD8- DC, the quiescent CD8+ DC did not induce IFN-gamma production from CD4 T cells. The difference between the DC subtypes appeared to be at the level of initial surface molecule interactions, but could not be attributed to differences in expression of MHC class II or B7 family molecules, or to the expression of Fas ligand on DC. However, when activated by inclusion of the Toll-like receptor 9 ligand CpG in culture, CD8+ DC became potent stimulators of both CD4 T cell proliferation and IFN-gamma production. In contrast, similar activation of CD8- DC produced a more modest increase in capacity to stimulate CD4 T cell proliferation and no increase in capacity to stimulate IFN-gamma production. The difference between a quiescent and an activated state is therefore more extreme for CD8+ than for CD8- DC. The especially tight regulation of the activity of CD8+ DC may be essential for the maintenance of self tolerance.     

Endothelial inducible costimulator ligand expression is increased during human cardiac allograft rejection and regulates endothelial cell-dependent allo-activation of CD8+ T cells in vitro

The role of costimulatory molecules other than CD80/CD86 in endothelial cell (EC)-dependent CD8(+) T cell activation including the generation of a distinct subset of endothelium-specific CTL (EC-CTL) remains unclear. Inducible costimulator (ICOS) and its ligand (ICOSL) are new members of the CD28 family mediating effector T cell differentiation and graft rejection in animal models. In this study endothelial ICOSL expression/regulation and effects on CD8(+) T cell allo-activation were analyzed. Constitutive expression of ICOSL was found on human EC. IL-1alpha and TNF-alpha induced ICOSL in an NF-kappaB-dependent manner on human umbilical vein endothelial cells (HUVEC). ICOS receptor was not detected on resting CD8(+) T cells but was induced in co-cultures with HUVEC. ICOSL blockade reduced CD8(+) T cell proliferation by 70% along with a marked decrease of IL-2 and IFN-gamma production in co-cultures with HUVEC. IL-2 supplementation of co-cultures could overcome the effect of ICOSL blockade; similarly the generation of EC-CTL was not impaired by ICOSL blockade in an IL-2-containing system. In vivo, weak constitutive ICOSL expression was found on coronary microvessels, which was significantly up-regulated during acute cardiac allograft rejection (p=0.04). Our data indicate a distinct role for ICOSL in EC-mediated CD8(+) T cell costimulation with implications for human cardiac allograft rejection.     

Perforin and IFN-gamma do not significantly regulate the virus-specific CD8+ T cell response in the absence of antiviral effector activity

Using gene-targeted mice we have investigated whether perforin and/or interferon-gamma exert a direct regulatory effect on the expansion and contraction of antigen-specific CD8(+) T cells following infection with a virus (vesicular stomatitis virus) which is not controlled through these molecular effector systems. Unlike what has been observed when these molecules are essential for pathogen clearance, neither molecule was found to play an important role in regulating the kinetics of the virus-specific CD8(+) T cell response in the absence of antiviral effector activity.     

Double positive CD4+CD8+ T cells are part of the adaptive immune response against Candida albicans

Although multiple immune cells participate in the innate and adaptive immune response against Candida albicans, the elucidation of cellular and inflammation kinetics may be a promising strategy to decipher events propitious to infection eradication. We used an in vitro Candida-human leucocyte coculture approach to study the dynamics of rare CD4+CD8+ double positive T lymphocytes (DP T) produced in response to this fungus. Our results highlight the presence of two phenotypically distinct subsets of DP T cells: CD4hiCD8lo and CD4loCD8hi, and that the different ratio of these cells correlates with infection outcome. The ratio of CD4hiCD8lo over CD4loCD8hi by day 6 was significantly higher in controlled infections and decreased when infection persisted due to a significant increase in the proportion of CD4loCD8hi. When infection was controlled, CD4hiCD8lo T cells secreted IFNγ, TNFα, IL-4 and IL-10 cytokines two days after challenge. By day 2, under conditions of persistent infection, CD4hiCD8lo and CD4loCD8hi T cells secreted significant levels of IL-4 and IL-10, respectively, compared to uninfected cultures. Frequency kinetics and original cytokine profiles detailed in this work indicate that DP T cells could participate in the adaptive immune response to C. albicans.