The assessment of antigen-specific CD8+ T cells through the combination of MHC class I tetramer and intracellular staining

Peptide-bound histocompatibility leukocyte antigen (HLA) class I tetramers enable a precise identification of antigen-specific CD8+ T cells using flow cytometry. The combination of this technology with intracellular staining techniques opens up significantly better ways of studying these cells than previously possible, allowing immunologists to look at their life cycle (activation and proliferation), manner of death (aging and apoptosis) and effector function (cytotoxic potential and cytokine production). In this review, we hope to provide an overview of these possibilities, as well as making specific suggestions about the use of intracellular staining techniques in the study of antigen-specific T cells. Understanding how antigen-specific cells develop and function in different circumstances and pathologies will be the key to unravelling the secrets of our cellular immune system.     

CCR4+CD8+ T cells clonally expand to differentiated effectors in murine psoriasis and in human psoriatic arthritis

Psoriasis is a chronic inflammatory skin disease with an autoimmune component and associated with joint inflammation in up to 30% of cases. To investigate autoreactive T cells, we developed an imiquimod-induced psoriasis-like inflammation model in K5-mOVA.tg C57BL/6 mice expressing ovalbumin (OVA) on the keratinocyte membrane, adoptively transferred with OT-I OVA-specific CD8⁺ T cells. We evaluated the expansion of OT-I CD8⁺ T cells and their localization in skin, blood, and spleen. scRNA-seq and TCR sequencing data from patients with psoriatic arthritis were also analyzed. In the imiquimod-treated K5-mOVA.tg mouse model, OT-I T cells were markedly expanded in the skin and blood at early time points. OT-I T cells in the skin showed mainly CXCR3⁺ effector memory phenotype, whereas in peripheral blood there was an expansion of CCR4⁺CXCR3⁺ OT-I cells. At a later time point, expanded OVA-specific T-cell population was found in the spleen. In patients with psoriatic arthritis, scRNA-seq and TCR sequencing data showed clonal expansion of CCR4⁺ T_CM cells in the circulation and further expansion in the synovial fluid. Importantly, there was a clonotype overlap between CCR4⁺ T_CM in the peripheral blood and CD8⁺ T-cell effectors in the synovial fluid. This mechanism could play a role in the generation and spreading of autoreactive T cells to the synovioentheseal tissues in psoriasis patients at risk of developing psoriatic arthritis.     

Combining MHC tetramer and intracellular cytokine staining for CD8(+) T cells to reveal antigenic epitopes naturally presented on tumor cells

As more tumor antigens are discovered and as computer-guided T cell epitope prediction programs become more sophisticated, many potential T cell epitopes are synthesized and demonstrated to be antigenic in vitro. However, it is estimated that about 50% of such tumor antigen-specific T cells have not been demonstrated to recognize the naturally presented epitopes due to either technical difficulties, such as T cell cloning which is still challenging for many laboratories; or the predicted T cell epitopes are not generated or not generated in sufficient amounts by the antigen processing machinery. However, to potentially identify clinically relevant vaccine candidate epitopes, it is essential to demonstrate natural antigen presentation. Here we combine the advantages of MHC tetramer and intracellular cytokine staining to sensitively detect natural antigen presentation by tumor cells for epitopes of interest. The novel method does not require T cell cloning or long-term T cell culture. Because the antigen-specific T cells are positively identified, this method is much less influenced by IFNγ producing cells with unknown specificities and should be widely applicable.     

Functional double-negative T cells in the periphery express T cell receptor Vβ gene products that cause deletion of single-positive T cells

A proportion of peripheral T cells lack surface expression of the CD4 or CD8 coreceptor molecules and hence are designated as “double negative” (DN). Most DN T lymphocytes express the Γ/β T cell receptor (TcR), but a minor fraction of them, in both humans and mice, express the α/β TcR. Whereas α/β⁺ DN T lymphocytes are infrequent (< 1%) in conventional lymphoid organs (spleen, blood, lymph node), they account for two-thirds of the T cells residing in adult bone marrow. Analysis of the TcR Vβ repertoire expressed by peripheral DN T cells revealed a high frequency of cells bearing autoreactive TcR that cause deletion of “single-positive” (SP) (CD4⁺CD8^? or CD4^?CD8⁺) T cells. Peripheral DN cells thus represent a cell type that is relatively resistant to clonal deletion. Furthermore, such cells have not been inactivated (anergized) in vivo since they proliferate and secrete interleukins in response to cross-linking by monoclonal antibodies specific for these Vβ gene products that are deleted in SP T cells. These results might help to understand the association of peripheral expansion of DN cells and development of autoimmune diseases.     

CD4~+CD25~+T细胞在CD8~+T细胞抗肿瘤免疫中的调节作用

实验旨在研究CD4+CD25+T细胞在CD8+T细胞抗肿瘤免疫中的调节作用。将小鼠脾脏中分离的单个核细胞分为两组,即去除CD4+CD25+T细胞组和未去除CD4+CD25+T细胞组,测定树突状细胞提呈的肿瘤抗原多肽刺激不同T细胞增殖活性、细胞因子IFN-γ分泌,以及多肽特异性CD8+T细胞对同源性胃癌细胞株MFC的杀伤活性。结果显示预先去除未致敏T细胞中的CD4+CD25+T细胞,所诱导的特异性CD8+CTL对肿瘤细胞免疫应答增强,表现为反应性T细胞对树突状细胞提呈的肿瘤抗原多肽增殖反应增强,IFN-γ分泌量提高及CD8+T细胞对MFC杀伤活性增强。这些结果表明,预先去除未致敏T细胞中的CD4+CD25+T细胞,肿瘤抗原多肽修饰的树突状细胞肿瘤疫苗效能可明显增加。CD4+CD25+T细胞在CD8+T细胞抗肿瘤免疫中起下调作用。     

Tracking antigen-specific CD8+ T cells in the rat using MHC class I multimers

Studies of the quantitative and qualitative aspects of anti-microbial, anti-tumoral or autoreactive immune responses have been greatly facilitated by the possibility to stain antigen-specific CD8(+) T cells using fluorescently labeled multimeric major histocompatibility complex (MHC) class I/peptide complexes. So far, this technology has been developed for human and mouse, but not yet in the rat. Here, we describe the generation of the first rat MHC multimer. We produced a rat RT1(l) Pro5 MHC Pentamer combined with the immunodominant peptide for Borna disease virus (BDV), in order to study the characteristics of the antiviral CD8(+) T cell response. BDV is an RNA virus that can cause persistent infections of the central nervous system (CNS), often associated with prominent brain inflammation. In adult Lewis rats, of the RT1(l) MHC haplotype, BDV infection leads to severe immune-mediated neurological symptoms. The pathogenic role of the immune response is due primarily to antiviral CD8(+) T cells, many of them being specific for an immunodominant epitope located in the BDV nucleoprotein (N(230-238)). Ex vivo flow cytometry analyses revealed that 3 to 12% of CD8(+) T cells found in the brains of BDV-infected rats stained positively with the BDV-Pentamer. Interestingly, the frequency of Pentamer-positive cells increased up to 3.3 fold after a short resting period in culture. Virus-specific CD8(+) T cells were mainly detected in the brain and were virtually undetectable in peripheral lymphoid organs. This novel rat Pro5 MHC Pentamer represents an attractive tool for the detection, isolation and characterization of antigen-specific CD8(+) T cell responses in the rat.     

CD4+8− help prevents rapid deletion of CD8+ cells after a transient response to antigen

We have followed the fate of mature CD8⁺ T cells with a male-specific transgenic T cell receptor after antigenic stimulation with hemopoietic cells in the absence or presence of help. Our data show that mature CD8⁺ T cells can be deleted after a 3-week period of transient activation and that help, e.g. in the form of interleukin-2, can considerably delay the deletion. These experiments have implications for the design of protocols aiming at the establishment of specific immunological tolerance in T cells.     

Avidity of CD8 T cells sharpens immunodominance

In the course of viral infection, the immune system exploits only a fraction of the available CTL repertoire and focuses on a few of a myriad of potentially antigenic peptides. This phenomenon, known as immunodominance, depends on a number of factors, including antigen processing and transport, MHC binding, competition for antigen-presenting cells, availability of the CD8 T cell repertoire and other mechanisms that function largely by restricting the immune response. Here we elucidate a novel mechanism that increases the immunodominance of the epitope rather by enhancing the immune response. Using a peptide-specific MHC-restricted mAb and functional assays of CTL activation, we show that T cells with high avidity for the immunodominant, H-2D(d) restricted, P18-I10 epitope expand rapidly following immunization, and this expansion in turn determines the level of the P18-I10 epitope immunodominance. This proliferation has little dependence on the number of MHC-peptide complexes. Since most self-reactive T cells of high avidity are depleted in the thymus, the selection of immunodominant epitopes based on the expansion of high-avidity T cells in the periphery reduces the potential for autoimmunity.     

Early regulation of CD8 T cell alloreactivity by CD4+CD25- T cells in recipients of anti-CD154 antibody and allogeneic BMT is followed by rapid peripheral deletion of donor-reactive CD8+ T cells, precluding a role for sustained regulation

While acquisition of regulatory function by CD4+CD25- T cells has been reported following antigenic stimulation, "naturally occurring" regulatory CD4+ T cells (Treg) are believed to express CD25. We examined the mechanisms involved in peripheral CD8 T cell tolerance by induction of mixed chimerism using non-myeloablative conditioning with low-dose (3 Gy) total body irradiation and anti-CD154 antibody. Recipient CD4+ T cells were initially required for the induction of CD8 cell tolerance, but were not needed beyond 2 weeks. Depletion of CD25+ Treg prior to bone marrow transplantation and blockade of IL-2 with neutralizing antibody did not impede tolerance induction. Tolerance was dependent on CTLA4, but not on IFN-gamma. In C57BL/6 mice containing a fraction of 2C TCR transgenic CD8+ T cells, which recognize the MHC class I alloantigen Ld, induction of chimerism with L(d+), but not Ld-, bone marrow cells led to deletion of peripheral 2C+ CD8+ cells within 1 week in peripheral blood and spleen. Complete deletion required the presence of recipient CD4+ T cells. Thus, a novel, rapid form of regulation by CD4+CD25- T cells permits initial CD8 T cell tolerance in this model. Rapid peripheral deletion of donor-specific CD8 T cells precludes an ongoing requirement for CD4 T cell-mediated regulation.     

High-frequency and adaptive-like dynamics of human CD1 self-reactive T cells

CD1 molecules present lipid antigens to T cells. An intriguing subset of human T cells recognize CD1‐expressing cells without deliberately added lipids. Frequency, subset distribution, clonal composition, naïve‐to‐memory dynamic transition of these CD1 self‐reactive T cells remain largely unknown. By screening libraries of T‐cell clones, generated from CD4⁺ or CD4^?CD8^? double negative (DN) T cells sorted from the same donors, and by limiting dilution analysis, we find that the frequency of CD1 self‐reactive T cells is unexpectedly high in both T‐cell subsets, in the range of 1/10–1/300 circulating T cells. These T cells predominantly recognize CD1a and CD1c and express diverse TCRs. Frequency comparisons of T‐cell clones from sorted naïve and memory compartments of umbilical cord and adult blood show that CD1 self‐reactive T cells are naïve at birth and undergo an age‐dependent increase in the memory compartment, suggesting a naïve/memory adaptive‐like population dynamics. CD1 self‐reactive clones exhibit mostly Th1 and Th0 functional activities, depending on the subset and on the CD1 isotype restriction. These findings unveil the unanticipated relevance of self‐lipid T‐cell response in humans and clarify the basic parameters of the lipid‐specific T‐cell physiology.     

MHC class II-independent CD25+ CD4+ CD8alpha beta+ alpha beta T cells attenuate CD4+ T cell-induced transfer colitis

CD4+ alpha beta T cell populations that develop in mice deficient in MHC class II (through 'knockout' of either the Aalpha, or the Abeta chain of the I-A(b) molecule) comprise a major 'single-positive' (SP) CD4+ CD8- subset (60-90%) and a minor 'double-positive' (DP) CD4+ CD8alpha beta+ subset (10-40%). Many DP T cells found in spleen, mesenteric lymph nodes (MLN) and colonic lamina propria (cLP) express CD25, CD103 and Foxp3. Adoptive transfer of SP but not DP T cells from Aalpha(-/-) or Abeta(-/-) B6 mice into congenic RAG(-/-) hosts induces colitis. Transfer of SP T cells repopulates the host with only SP T cells; transfer of DP T cells repopulates the host with DP and SP T cells. Anti-CD25 antibody treatment of mice transplanted with DP T cells induces severe, lethal colitis; anti-CD25 antibody treatment of mice transplanted with SP T cells further aggravates the course of severe colitis. Hence, regulatory CD25+ T cells within (or developing from) the DP T cell population of MHC class II-deficient mice control the colitogenic potential of CD25- CD4+ T cells.     

Peripheral clonal deletion of antiviral memory CD8+ T cells

Antiviral cytotoxic memory CD8⁺ T cells adoptively transferred to mice which are persistently infected with lymphocytic choriomeningitis virus WE or DOCILE initially proliferated extensively; they either caused the death of the recipient or, alternatively, disappeared within a few days. Apparently, the complete and coordinated induction and stimulation by widely distributed viral antigen caused these memory T cells to die before virus had been eliminated from the host. Thus memory T cells are as susceptible to peripheral exhaustion/deletion as unprimed T cells. These results indicate possible limitations of exclusively CD8⁺ T cell-mediated adoptive immunotherapy against viral infections or tumors.     

免疫磁珠负性分离纯化小鼠脾脏CD8+ T细胞

目的 探讨小鼠脾脏CD8 T细胞的免疫磁珠负性分选方法,并对分选后所得细胞进行纯度、活力及功能检测.方法 以免疫磁珠负性分选法从小鼠脾脏细胞中分离CD8 T细胞,流式细胞术检测所得细胞的纯度,台盼蓝检测细胞活力并用ConA刺激检测增殖能力. 结果 经过流式细胞仪测定免疫磁珠负性分选后的小鼠脾脏CD8 T细胞纯度达到(91.6±3.6)%,台盼兰染色细胞活力为(94.9±3.2)%,ConA刺激72 h后有(56.3±1.7)%的细胞增殖.结论 免疫磁珠负性分选法能够分选出高纯度的CD8 T细胞,并且不影响分选靶细胞的细胞活力和功能.     

同种异体反应性细胞与调节性T细胞在新生期诱导的小鼠移植耐受中的作用探讨

目的:初步探讨同种异体反应性T细胞克隆清除与调节性T细胞在小鼠移植耐受中的作用。方法:雌性BALB/c小鼠与雄性C57BL/6小鼠杂交一代获得F1小鼠,不同剂量的F1小鼠脾脏细胞经眶静脉输注给新生24 h C57BL/6小鼠体内诱导耐受,成年后移植F1小鼠来源的皮肤,建立不同耐受程度的小鼠移植耐受模型;耐受小鼠脾脏细胞经CFSE标记后注射到F1小鼠体内,分析耐受小鼠来源的T细胞在体内对F1抗原的增殖能力;流式细胞术、过继转移实验分析CD4+Foxp3+调节性T细胞在移植耐受和移植排斥过程中的表达。结果:C57BL/6小鼠在新生期输注F1小鼠脾脏细胞可诱导移植耐受,耐受程度与输注的脾脏细胞剂量有关,3×107个F1小鼠脾脏细胞可诱导C57BL/76小鼠长期皮肤移植耐受,1×107个细胞诱导可使移植皮肤生存时间显著延长,但在50 d内完全排斥;体内混合淋巴细胞反应实验证明,长期耐受小鼠体内的同种异体反应性T细胞被完全克隆清除,但低剂量组小鼠体内仍存在一定数量的反应性T细胞;流式细胞分析发现,高剂量和低剂量组小鼠体内的CD4+Foxp3+调节性T细胞表达与初始小鼠相比没有显著差异;同种异体反应性T细胞过继转移给耐受小鼠,移植耐受的皮肤发生排斥反应,小鼠体内的调节性T细胞表达升高。结论:小鼠的移植耐受程度与小鼠体内的同种异体反应性T细胞的克隆清除程度有关,与CD4+Foxp3+调节性T细胞的表达没有直接关系;调节细胞在移植排斥过程中表达升高,可能作为一种反馈机制参与耐受的形成。     

The proliferative response of CD4 T cells to steady-state CD8+ dendritic cells is restricted by post-activation death

CD8(+) splenic dendritic cells (DCs) from steady-state mice are less effective than the CD8(-) DC subset in their capacity to stimulate CD4 T cell proliferation in culture. However, we found that the two DC subtypes were equally potent at activating CD4 T cells, based on up-regulation of CD69 and CD25 expression. Also, we found no difference in the rate of T cell death prior to entry into the first division. We then tracked carboxyfluorescein diacetate succinimidyl ester-labeled T cells and employed a quantitative model to assess in detail the CD4 T cell expansion process in response to stimulation with CD8(+) or with CD8(-) DCs. The time required for most T cells to replicate their DNA prior to the first division was similar in both DC cultures. However, progression of the CD4 T cell population through subsequent divisions was reduced in CD8(+) DCs compared with CD8(-) DC culture. This was associated with an increased loss of viable T cells at each division. Post-activation, division-associated T cell death is therefore a major factor in the reduced response of CD4 T cells to CD8(+) DCs.     

Direct cloning and tetramer staining to measure the frequency of intestinal gluten‐reactive T cells in celiac disease

Knowledge of the frequency of disease‐driving CD4⁺ T cells in lesions of chronic human inflammatory diseases is limited. In celiac disease (CD), intestinal gluten‐reactive CD4⁺ T cells, which recognize gluten peptides only in the context of the disease‐associated HLA‐DQ molecules, are key pathogenic players. By cloning CD4⁺ T cells directly from intestinal biopsies of CD patients, we found that 0.5–1.8% of CD4⁺ T cells were gluten reactive. About half of the gluten‐reactive T cells were specific for either the immuno‐dominant DQ2.5‐glia‐α1a or DQ2.5‐glia‐α2 epitopes, suggesting that direct visualization of gluten‐specific T cells could be possible. Assessed by flow cytometry, tetramer‐positive T cells were present in 10/10 untreated CD patients with a frequency of 0.1–1.2% of CD4⁺ T cells. Gluten‐specific T cells were also detectable in most treated CD patients (7/10). Moreover, the frequency of gluten‐specific T cells correlated with the degree of histological damage in the gut mucosa as scored by Marsh‐grading, and also with serum IgA anti‐transglutaminase 2 antibody levels. Tetramer staining of gluten‐reactive T cells in biopsy material is a useful tool for future studies of such cells in CD and could also potentially serve as a diagnostic supplement in selected cases.     

Tolerogenic dendritic cells impede priming of naïve CD8+ T cells and deplete memory CD8+ T cells

Type 1 diabetes is a T‐cell‐mediated autoimmune disease in which autoreactive CD8⁺ T cells destroy the insulin‐producing pancreatic beta cells. Vitamin D3 and dexamethasone‐modulated dendritic cells (Combi‐DCs) loaded with islet antigens inducing islet‐specific regulatory CD4⁺ T cells may offer a tissue‐specific intervention therapy. The effect of Combi‐DCs on CD8⁺ T cells, however, remains unknown. To investigate the interaction of CD8⁺ T cells with Combi‐DCs presenting epitopes on HLA class I, naive, and memory CD8⁺ T cells were co‐cultured with DCs and proliferation and function of peptide‐specific T cells were analyzed. Antigen‐loaded Combi‐DCs were unable to prime naïve CD8⁺ T cells to proliferate, although a proportion of T cells converted to a memory phenotype. Moreover, expansion of CD8⁺ T cells that had been primed by mature monocyte‐derived DCs (moDCs) was curtailed by Combi‐DCs in co‐cultures. Combi‐DCs expanded memory T cells once, but CD8⁺ T‐cell numbers collapsed by subsequent re‐stimulation with Combi‐DCs. Our data point that (re)activation of CD8⁺ T cells by antigen‐pulsed Combi‐DCs does not promote, but rather deteriorates, CD8⁺ T‐cell immunity. Yet, Combi‐DCs pulsed with CD8⁺ T‐cell epitopes also act as targets of cytotoxicity, which is undesirable for survival of Combi‐DCs infused into patients in therapeutic immune intervention strategies.     

Immunotargeting of insulin reactive CD8 T cells to prevent Diabetes

We have previously demonstrated, in the collagen-induced arthritis model (CIA), that repetitive injections of immature bone-marrow-derived dendritic cells (iDCs) induce the expansion of a population of CD4CD49b-expressing cells, and that their adoptive transfer results in protection against CIA in a prophylactic setting. However, the in vivo mechanism responsible for their expansion, as well as their therapeutic potential in established disease remains to be defined. In the present study, we show that expression of the MHC class II molecules on iDCs is required for their expansion thus identifying these cells as MHC class II-restricted T cells. Using adoptive transfer of Thy1.1 positive cells, it is shown that iDC-induced CD4⁺CD49b⁺ T cells home to the lymph nodes draining the inflamed tissue. The high immunomodulatory potential of these cells was underscored following their adoptive transfer in a model of contact hypersensitivity. Finally, we assessed and compared the therapeutic potential of iDC-inducible CD4⁺CD49b⁺ T cells with that of iDCs in established CIA. Repetitive injections of iDCs in arthritic mice failed to decrease the severity of established disease. In contrast however, a single injection of iDC-induced CD4⁺CD49b⁺ T cells reversed clinical symptoms of arthritis and provided long-lasting protection. Together, our data indicate that iDC-induced CD4⁺CD49b⁺ T cells are bona fide T regulatory cells with strong immunomodulatory properties that are not only able to prevent disease onset, but also to interfere with an ongoing inflammatory immune response.     

Functionality of CD4+ and CD8+ T cells from tonsillar tissue

For many years, tonsillectomy has been used routinely in children to treat chronic or recurrent acute tonsillitis. Palatine tonsils are secondary lymphoid organs and the major barrier protecting the digestive and respiratory tracts from potential invasive microorganisms. They have been used as sources of lymphoid tissue; however, despite the hundreds of papers published on tonsillectomy, no studies addressing the functionality of the CD4(+) and CD8(+) T cells from chronically infected tonsils have yet been published. The aim of this study was to analyse the functionality of the CD4(+) and CD8(+) T cells with respect to tonsillar tissue. We used an affordable approach to measure the frequency of antigen-specific CD4(+) T cells, the direct ex-vivo cytotoxicity of CD8(+) T cells, memory T cell phenotype, cytokine profile and DC phenotype. Our results demonstrate that CD4(+) and CD8(+) T cells from tonsillar tissue are totally functional, as shown by their ability to produce cytokines, to degranulate and to differentiate into effector-memory T cells.