The CD8+ granzyme B+ T-cell subset in peripheral blood from healthy individuals contains activated and apoptosis-prone cells.

Granzyme B (GrB) has been implicated in induction of apoptosis in target cells. The presence of GrB in peripheral blood CD8+ T cells from healthy individuals was analysed in immunocytochemical and flow cytometric studies. Furthermore, CD8+ GrB- T cells and CD8+ GrB+ T cells were compared regarding phenotypical characteristics and susceptibility to both spontaneous and Fasmediated apoptosis. GrB was expressed by approximately one-fifth of CD8+ T cells. Compared with the CD8+ GrB- T-cell subset, the CD8+ GrB+ T-cell subset contained cells that were relatively more activated and more prone to spontaneous apoptosis. Culturing of cells with immunoglobulin M (IgM) anti-Fas monoclonal antibody had no additional effect on the number of CD8+ GrB+ T cells undergoing apoptosis. We suggest that the presence of CD8+ GrB+ T cells in peripheral blood from healthy individuals results from immune surveillance or contact with infectious agents, and that spontaneous apoptosis of these cells might serve as a mechanism for their eventual clearance.     

The cytolytic enzymes granyzme A, granzyme B, and perforin: expression patterns, cell distribution, and their relationship to cell maturity and bright CD57 expression

Cytolytic enzymes (CEs) are critical mediators of anti-viral and -tumor immunity; however, as a number of molecules belong to this enzyme family, our understanding of CEs remains limited. Specifically, it remains unclear what combinations of granzymes and perforin (Perf) are expressed by various immune cells and how CE content relates to cellular differentiation. Using polychromatic flow cytometry, we simultaneously measured expression of the most common human CEs [granzyme A (gA), granzyme B (gB), and Perf] alongside markers of alphabeta and gammadelta T cell maturation (CD45RO, CCR7, CD27, CD57). Additionally, we measured CE content in NK cell subsets (defined by their expression of CD16 and CD56). We found that among a wide variety of immune cells, CE content was linked to cellular maturity. Moreover, common expression patterns were shared across cell types, such that gB+ cells always contained gA, and Perf+ cells were primarily gA+ gB+. Most importantly, CD57 expression correlated strongly with simultaneous expression of gA, gB, and Perf. Thus, the use of CD57 provides a means to easily isolate viable cells with high cytolytic potential, without the need for lethal fixation/permeabilization techniques.     

Functional expression of chemokine receptor CCR6 on human effector memory CD8+ T cells

Since CCR6 is a receptor for the chemokine CCL20, which is produced in tissues such as intestine and colon, it is thought that T cells expressing CCR6 are involved in mucosal immunity. The expression and function of CCR6 on human CD8+ T cells have not well been analyzed, although it is known that this receptor is expressed on a subset of human CD8+ T cells. We here characterize human CCR6+ CD8+ T cells. Multi-color flow cytometric analysis demonstrated that CCR6+ cells are predominantly found among CD8+ T cells having the memory phenotype. The expression of CCR6 is positively and negatively correlated with that of CCR5 and CCR7, respectively. CCR6+ CD8+ T cells express granzyme A and a low level of perforin but not granzyme B. In addition, a major population among these cells has the ability to produce IFN-gamma and TNF-alpha but not IL-2. These results indicate that CCR6+ CD8+ T cells have characteristics of early effector memory cells rather than effector or central memory cells. A chemotaxis assay revealed that CCR6+ CD8+ T cells have the ability to migrate in response to CCL20, suggesting that these T cells migrate to tissues such as colon and are involved in mucosal immunity.     

Differential expression of the granzymes A, K and M and perforin in human peripheral blood lymphocytes

Granzymes (Gzm) are a group of serine proteases which are stored in the granules of cytotoxic lymphocytes. In humans, five granzymes have been characterized to date at the molecular level. While GzmA and GzmB have been extensively studied, little is known about GzmH, GzmK and GzmM. In this study, we describe the generation of mAbs against human GzmK and GzmM by genetic immunization. The obtained anti-GzmK and anti-GzmM mAbs are not cross-reactive with GzmA, GzmB, GzmM and GzmA, GzmB, GzmK, respectively, and show a granular staining pattern in human lymphocytes. Flow cytometric analysis of peripheral blood lymphocytes revealed that GzmA, GzmM and perforin show a similar distribution. They are expressed in almost all CD16+CD56+ NK cells, CD3+CD56+ NKT cells and gammadelta T cells as well as in 20-30% of all CD3+CD8+ TC cells. Surprisingly, GzmK was not detected in the highly cytotoxic CD16+CD56+ NK cells but was preferentially expressed in lymphocytes of the T cell lineage, staining 20% of CD3+CD8+ TC cells, 50% of CD3+CD56+ NKT cells and 40% of gammadelta T cells, as well as 60% of the small sub-population of CD56bright+ NK cells. Our data suggest that human granzymes are differentially expressed in distinct sub-populations of peripheral blood lymphocytes.     

MAIT cells are licensed through granzyme exchange to kill bacterially sensitized targets

Mucosal-associated invariant T (MAIT) cells are an innate-like T-cell population restricted by the non-polymorphic, major histocompatibility complex class I-related protein 1, MR1. MAIT cells are activated by a broad range of bacteria through detection of riboflavin metabolites bound by MR1, but their direct cytolytic capacity upon recognition of cognate target cells remains unclear. We show that resting human MAIT cells are uniquely characterized by a lack of granzyme (Gr) B and low perforin expression, key granule proteins required for efficient cytotoxic activity, but high levels of expression of GrA and GrK. Bacterial activation of MAIT cells rapidly induced GrB and perforin, licensing these cells to kill their cognate target cells. Using a novel flow cytometry-based killing assay, we show that licensed MAIT cells, but not ex vivo MAIT cells from the same donors, can efficiently kill Escherichia coli-exposed B-cell lines in an MR1- and degranulation-dependent manner. Finally, we show that MAIT cells are highly proliferative in response to antigenic and cytokine stimulation, maintaining high expression of GrB, perforin, and GrA, but reduced expression of GrK following antigenic proliferation. The tightly regulated cytolytic capacity of MAIT cells may have an important role in the control of intracellular bacterial infections, such as Mycobacterium tuberculosis.     

The cytotoxic protease granzyme M is expressed by lymphocytes of both the innate and adaptive immune system

The cytotoxic serine protease granzyme M (GrM) is one of the five human granzymes, which are mainly expressed by cytotoxic T lymphocytes and/or NK cells. Upon perforin-dependent entry into a target cell, GrM cleaves specific substrates resulting in the onset of a unique cell death mechanism. However, the role of GrM in pathophysiological conditions is not clear yet. Knowledge of the expression and regulation of GrM by lymphocyte populations is instrumental for a better understanding of the contribution of this unique granzyme in health and disease. Two previous studies demonstrated GrM protein expression by lymphocytes of the innate immune system, i.e., NK cells, NKT cells, and γδ T cells, whereas its expression by CD8⁺ T cells remained controversial. In the present study, we have investigated the expression and regulation of GrM in lymphocyte subsets in more detail. Flow cytometry analysis with a novel specific antibody against human GrM confirmed high expression of this protease by NK cells, NKT cells, and γδ T cells. CD8⁺ T cells also expressed GrM and comparing the naive to early effector-memory, to late effector-memory, to effector subset, this expression gradually increased during differentiation. In contrast, CD4⁺ T cells hardly expressed GrM. Quantitative PCR analysis for GrM mRNA levels in the diverse lymphocyte sub-populations confirmed the FACS results. GrM protein expression by lymphocyte populations was not significantly affected by a panel of GrB-inducing cytokines, indicating that GrM expression is differentially regulated as compared to GrB. In conclusion, the human cytotoxic protease GrM is, besides by innate immune cells, also expressed by CD8⁺ effector T cells, in particular by the differentiated effector CD27^? CD45RO^? subset. Our current findings support not only a role for GrM in the innate but also in the adaptive immune response.     

中国HIV感染者细胞毒性淋巴细胞内穿孔素的差异性表达

目的 了解中国HIV感染者细胞毒性相关的NK细胞及CD8^＋T细胞内穿孔素表达水平，探讨HIV感染过程中穿孔素表达与机体免疫功能的关系。方法 采集31例未经抗病毒治疗的HIV感染者和经过高效抗逆转录病毒疗法（HAAS）治疗的17例HIV／AIDS患者以及15例健康对照的抗凝全血，应用流式细胞仪胞内染色法检测CD56^＋／CD3^-、CD3^-／CD16^＋NK细胞及CD8^＋／CD3^＋内穿孔素表达的百分数，分析其与NK细胞绝对值、NK细胞百分数、CD4^＋T、CD8^＋T淋巴细胞绝对值及血浆病毒载量的相关性。结果 中国HIV感染者的NK细胞CD56^＋／CD3^-及CD3^-／CD16^＋亚群穿孔素表达百分数（平均13．17％，平均24．05％）高于CD8^＋T细胞穿孔素表达百分数（平均9．03％）；NK细胞内穿孔素表达低于健康对照（P〈0．05，P〈0．05），CD8^＋T细胞内穿孔素表达高于健康对照（P〈0．05）；NK细胞及CD8^＋T细胞内穿孔素表达水平与其绝对计数显著相关，与疾病进展不相关。HAART治疗组NK细胞内穿孔素表达升高，CD8T^＋细胞内穿孔素表达无显著变化。结论 中国HIV感染者NK细胞内穿孔素表达降低，抗病毒治疗后升高；CD8^＋T细胞内穿孔素表达升高，抗病毒治疗后无显著变化。     

Human CD8+ T cells specific for influenza A virus M1 display broad expression of maturation-associated phenotypic markers and chemokine receptors

To define the role of memory T cells in a non-persistent viral infection, we have delineated the phenotype of memory CD8+ T cells specific for influenza A virus (FluA; matrix protein M158-66) based on the expression of several memory/effector lineage markers and relevant chemokine receptors. We found a majority of FluA-specific CD8+ T cells expressed CD27 and CD28, and variably expressed CD45RA, CD62L, CD94 and granzyme A. A majority of FluA-specific CD8+ T cells expressed high levels of CXCR3, and moderate levels of CCR5 and CXCR4, whereas a limited proportion expressed CCR7, CCR6 and CXCR5. A phenotypic profile based on these observations showed that there are both immature and mature memory CD8+ T cells specific for FluA.     

Divergence of natural killer cell receptor and related molecule in the decidua from sporadic miscarriage with normal chromosome karyotype

The aim of this cohort study was to investigate immunophenotypic characteristics of natural killer (NK) cells by assessing specific molecules expressed in the decidua of sporadic miscarriages and induced abortions. The deciduae were obtained from 29 consecutively seen women whose pregnancies ended in first trimester miscarriages (MS), and the fetal chromosome karyotype of these MS was analysed. Additionally, 13 deciduae were obtained from induced abortion (IA) with informed consent. The expression of perforin, CD94, CD161, CD158a, CD158b, CD244 on CD3-CD56+NK cells, and perforin on CD3+CD8+ T cells was analysed by flow cytometry. The CD158a (mean+/-SD, 26.2+/-14.7%) and CD94 (50.2+/-25.7%) expressions in MS with normal chromosome karyotype (MSNK; n=11) were significantly decreased as compared with those (41.5+/-19.5%, 71.4+/-20.4%) in MS with abnormal karyotype (MSAK; n=18) and those (44.3+/-21.9%, 80.8+/-17.5%) in IA (n=13). Conversely, the perforin expression on CD3-CD8-CD56+NK cells (76.3+/-11.0%) and CD3+CD8+T cells (30.6+/-9.2%) in MSNK was significantly increased as compared with those (66.8+/-16.6%, 23.6+/-8.7%) in MSAK and those (62.9+/-11.6%, 19.7+/-8.1%) in IA. A positive correlation between CD94 and CD158a expressions on NK cells, negative correlations between CD94 on NK cells and perforin on NK cells/T cells, and between CD158a on NK cells and perforin on T cells were found in the decidua. A divergence of NK cell repertoire in the decidua might be related to aetiology of sporadic MSNK.     

Localization and identification of granzymes A and B-expressing cells in normal human lymphoid tissue and peripheral blood.

Cytoplasmic granules from activated natural killer (NK) and cytotoxic T lymphocytes (CTL) contain a pore-forming protein, perforin, and several homologous serine proteinases called granzymes. Expression of these proteins correlates with the cytolytic potential of cytotoxic lymphocytes. Using a panel of MoAbs specific for human granzyme A and B, respectively, expression of these proteinases in non-pathological lymphoid tissue and peripheral blood lymphocyte (PBL) subpopulations was investigated. Using immunohistochemistry and double stainings, the phenotype of granzyme-expressing cells in lymphoid tissue was investigated. Granzyme-positive cells were detected in all lymphoid tissues tested. No large differences in the number and distribution between granzyme A- and granzyme B-positive cells were observed. The highest number of positive cells was located in the red pulp of the spleen. Significant numbers were detected in tonsil, lymph nodes, liver and thymus. Low numbers were present in the lamina propria of non-inflamed stomach, small intestine and colon. Phenotypic analysis and cell sorting showed that most of the granzyme-positive cells in lymphoid tissue and PBL consisted of CD3-CD16+CD56+ lymphocytes. Hardly any granzyme-positive CD3+CD8+ CTL were present in peripheral blood. The synthesis of granzyme A as well as B by both CD3+CD16+CD56+ and CD3+CD8+ cells in peripheral blood was increased upon IL-2 stimulation. These results indicate that in normal lymphoid tissue the predominant cytolytic cell population is formed by the NK cells, and activated CTL are rare.     

Granzyme K degrades the redox/DNA repair enzyme Ape1 to trigger oxidative stress of target cells leading to cytotoxicity

Granzyme K (Gzm K) and granzyme A (GzmA) are the only two tryptases among all the granzymes. Tryptase activity is necessary for cytotoxic T lymphocyte (CTL)/nature killer (NK) cells-mediated cytolysis. Granzyme K might be a potent granzyme to rescue the activity of granzyme A. Granzyme K expresses at high levels in CD56(high) NK cells, memory CD8+ T cells and CD56+ T cells. We recently demonstrated human granzyme K induces rapid cell death with rapid externalization of phosphatidylserine, nuclear morphological changes and single-stranded DNA nicks. Moreover, Granzyme K can induce rapid reactive oxygen species (ROS) generation and collapse of mitochondrial inner membrane potential. Blockade of reactive oxygen species accumulation suppresses granzyme K-induced cell death. However, it is unknown about how reactive oxygen species generate in Granzyme K-mediated apoptosis. Here we found the redox factor-1/apurinic apyrimidinic endonuclease Ape1 can antagonize reactive oxygen species generation. Overexpression of Ape1 inhibits, whereas silencing Ape1 expression potentiates reactive oxygen species accumulation under treatment with oxidative reagents or loading with granzyme K. Ape1 is a physiological substrate of granzyme K. Ape1 cleavage by granzyme K facilitates intracellular reactive oxygen species accumulation and enhances granzyme K-induced cell death.     

U5 monoclonal antibody identifies a novel lymphocyte surface antigen preferentially expressed in human circulating natural killer cells with high cytotoxic activity

U5 monoclonal antibody (mAb), developed against Japanese monkey lymphocytes, identified a glycoprotein of 32 000 MW that is expressed in a subset of human circulating natural killer (NK) cells. The distribution of U5 molecules was restricted among CD16+ cells, and U5 antigen was preferentially expressed in the CD38+ subset. U5+ CD16+ CD56+ cells were highly active on NK assay against K562 target cells. Variations in cytolytic activities and mRNA expression of perforin, granzyme B and Fas ligand (FasL) were observed in U5- CD16+ CD56+ cells depending on the donor. We found that in some donors, a phenotypically mature (CD16+ CD56+) but functionally immature subset was present in the peripheral circulation. The U5- CD16+ CD56+ cells of some donors exhibited negligible cytolytic activity with no detectable expression of the above mRNAs, whereas those of the other donors had a significant but lower cytolytic activity with a reduced expression of granzyme B mRNA as compared with those of U5+ CD16+ CD56+ cells. Concanavalin A (Con A) stimulation induced an expression of U5 antigen in U5- CD16+ CD56+ cells accompanied by an up-regulation of granzyme B mRNA expression. These findings suggest that U5 antigen may be a novel molecule involved in the maturation or differentiation of human circulating NK cells.     

Properties of murine (CD8+)CD27- T cells

In humans, loss of CD27 expression is associated with the stable acquisition of effector functions by CD8+ T cells. We found that murine (CD8+)CD27- T cells were confined to the primed CD62L(dull/-)CD44(bright)CCR7- T cell population. (CD8+)CD27- T cells were absent from lymph nodes but could be found in blood, spleen and in non-lymphoid organs such as lung and liver. Late after primary influenza virus infection, low percentages of antigen-specific CD27- cells emerged in the lung and spleen. After recovery from secondary influenza virus infection, high percentages of influenza-specific CD27- T cells were found in the lung and the loss of CD27 on lung CD8+ T cells coincided with high granzyme B expression. After murine cytomegalovirus infection, loss of CD27 expression on virus-specific CD8+ T cell populations was sustained and especially marked in liver and lung. We suggest that in mice, CD27 is lost from CD8+ T cells only after repetitive antigenic stimulation. Moreover, the high expression of both granzyme B and perforin in the CD27- T cells suggests that the lack of CD27 on murine CD8+ T cells can be used to identify memory T cells with expression of cytotoxic effector molecules.     

利用多种表面标志鉴别正常人外周血初始和记忆T细胞亚群

目的探索能够准确鉴别初始和记忆T细胞亚群的表面标志及其关联性。方法自正常人静脉血中分离PBMCs,同时加入9种不同标记的抗体,进行染色,利用流式细胞仪检测,并分析结果。结果CD45RA^＋CD4^＋T细胞均表达CD27、CCR7、CD28和CD62L,而在CD45BA^-CD4^＋T细胞中,约有75％的细胞表达CD27,30％为CCR5^＋,90％为CCR7^＋,99％为CD28^＋,70％为CD62L^＋。与其相一致的是在CD62L^＋CD4^＋T细胞中,大约60％的细胞为CD45RA^＋,但CD62L^-CD4^＋T细胞中,大约95％的细胞为CD45RA^-。在CD8^＋T细胞中,大约有78％的细胞为CD45RA^＋,其余为CD45RA^-。CD45BA^＋CD8^＋T细胞的表型与CD45BA^＋CD4^＋T细胞基本相似。结论同时检测多种T细胞表面标志,深入了解T细胞各亚群的表型特征,对疾病的诊断、治疗、预后判断以及疫苗的设计和效果评价具有重要的指导意义。     

Systematic characterization of human CD8+ T cells with natural killer cell markers in comparison with natural killer cells and normal CD8+ T cells

We investigated the function of CD56+ CD8+ T cells (CD56+ T cells) and CD56- CD57+ CD8+ T cells (CD57+ T cells; natural killer (NK)-type T cells) and compared them with those of normal CD56- CD57- CD8+ T cells (CD8+ T cells) and CD56+ NK cells from healthy volunteers. After the stimulation with immobilized anti-CD3 antibodies, both NK-type T cells produced much larger amounts of interferon-gamma (IFN-gamma) than CD8+ T cells. Both NK-type T cells also acquired a more potent cytotoxicity against NK-sensitive K562 cells than CD8+ T cells while only CD56+ T cells showed a potent cytotoxicity against NK-resistant Raji cells. After the stimulation with a combination of interleukin (IL)-2, IL-12 and IL-15, the IFN-gamma amounts produced were NK cells > or = CD56+ T cells > or = CD57+ T cells > CD8+ T cells. The cytotoxicities against K562 cells were NK cells > CD56+ T cells > or = CD57+ T cells > CD8+ T cells while cytotoxicities against Raji cells were CD56+ T cells > CD57+ T cells > or = CD8+ T cells > or = NK cells. However, the CD3-stimulated proliferation of both NK-type T cells was smaller than that of CD8+ T cells partly because NK-type T cells were susceptible to apoptosis. In addition to NK cells, NK-type T cells but not CD8+ T cells stimulated with cytokines, expressed cytoplasmic perforin and granzyme B. Furthermore, CD3-stimulated IFN-gamma production from peripheral blood mononuclear cells (PBMC) correlated with the proportions of CD57+ T cells in PBMC from donors. Our findings suggest that NK-type T cells play an important role in the T helper 1 responses and the immunological changes associated with ageing.     

结核性胸液中NK细胞的亚群及表型功能特征分析

目的探讨结核性胸液(PFC)中NK细胞的亚群分布及表型功能特征。方法以正常人外周血单个核细胞(PBMC)作对照,利用多种标记抗体进行表面和细胞内细胞毒效应分子染色,再利用流式细胞仪在单个细胞水平上分析结核性胸水中NK细胞亚群的异质性和生物学特征。结果 NK细胞可以分为CD56+CD16-、CD56+CD16+和CD56-CD16+三个亚群,与PBMC中的NK细胞相比,PFC中CD56+CD16-NK细胞亚群明显增加,而CD56+CD16+NK细胞亚群比例明显下降;结核性胸液中CD56+CD16-及CD56+CD16+NK细胞亚群表达较低水平的颗粒酶B,CD107a/b的比例在结核性胸液中3个NK细胞亚群中均有增加(P<0.05)。结核性胸液中NK细胞表达高水平表面抑制性受体NKG2A及表面活化性受体NKG2D。活化分子CD69及CD25在结核性胸水中NK细胞上的表达均有所增加(P<0.05)。结论结核性胸液中的NK细胞比例与PBMC相比发生变化,结核性胸液中的NK细胞表达低水平杀伤分子颗粒酶B但表达高水平活化分子CD69,提示NK细胞在结核感染中发挥其生物学功能。     

The bi-specific CD3 x NCAM antibody: a model to preactivate T cells prior to tumour cell lysis

To target the neural cell adhesion molecule (NCAM, CD56) on neuroblastoma by T cell-based immunotherapy we have generated a bi-specific CD3 x NCAM antibody (OE-1). This antibody can be used to redirect T cells to NCAM+ cells. Expectedly, the antibody binds specifically to NCAM+ neuroblastoma cells and CD3+ T cells. OE-1 induces T cell activation, expansion and effector function in peripheral blood mononuclear cell (PBMC)-derived CD4+ and CD8+ T cells. T cell activation was shown to depend on the presence of normal natural killer (NK) cells in the culture. Interestingly, while PBMC- derived T cells were activated by OE-1, NK cells were almost completely depleted, suggesting that T cells activated by OE-1 deleted the NK cells. Activated CD4+ and CD8+ T cells differentiate into a larger CCR7+ central memory and a smaller CCR7- effector memory cell population. Most importantly, preactivated T cells were highly cytotoxic for neuroblastoma cells. In eight of 11 experiments tumour-directed cytotoxicity was enhanced when NK cells were present during preactivation with OE-1. These data strongly support a bi-phasic therapeutic concept of primarily stimulating T cells with the bi-specific antibody in the presence of normal NCAM+ cells to induce T cell activation, migratory capacity and finally tumour cell lysis.     

CXCR5+ CCR7- CD8 T cells are early effector memory cells that infiltrate tonsil B cell follicles

Naive and central memory CD8 T cells use CCR7 to recirculate through T cell zones of secondary lymphoid organs where they can encounter antigen. Here we describe a subset of human CD8 T cells expressing CXCR5 which enables homing in response to CXCL13 produced within B cell follicles. CXCR5+ CD8 T cells were found in tonsil B cell follicles, and isolated cells migrated towards CXCL13 in vitro. They expressed CD27, CD28, CD45RO, CD69, and were CD7low, and produced IFN-gamma and granzyme A but lacked perforin, a functional profile suggesting that these cells are early effector memory cells in the context of contemporary T cell differentiation models. Receptors important in the interaction with B cells, including CD70, OX40 and ICOS, were induced upon activation, and CXCR5+ CD8 T cells could to some extent support survival and IgG production in tonsil B cells. Furthermore, CXCR5+ CD8 T cells expressed CCR5 but no CCR7, suggesting a migration pattern distinct from that of follicular CD4 T cells. The finding that a subset of early effector memory CD8 T cells use CXCR5 to locate to B cell follicles indicates that MHC class I-restricted CD8 T cells are part of the follicular T cell population.     

Functional and phenotypic analysis of human memory CD8+ T cells expressing CXCR3

Several chemokine receptors play an important role in the migration of na?ve, memory, and effector T cells. Flow cytometric analyses showed that human CD8+ T cells with na?ve (CD27+ CD28+ CD45RA+) or memory (CD27+ CD28+/- CD45RA+) phenotypes included a population expressing a high level of CXC chemokine receptor 3 (CXCR3high) and one expressing a low level of it (CXCR3low), but those with the effector phenotype (CD27- CD28- CD45RA+/-) included a population that did not express CXCR3 (CXCR3-) and a CXCR3low population. This relation between the expression level of CXCR3 and memory/effector phenotypes also applied to Epstein-Barr virus- or human cytomegalovirus-specific CD8+ T cells. CXCR3high cells were found predominantly in CC chemokine receptor 7 (CCR7)+ CCR5- and CCR7- CCR5- subsets of CD8+ T cells with the CD27+ CD28+ CD45RA- memory phenotype, suggesting that they are memory cells with intermediate differentiation. Indeed, CXCR3high CD27+ CD28+ CD45RA- CD8+ T cells had the ability to produce interleukin-2 and interferon-gamma. These results together indicate that the expression of CXCR3 is up-regulated on intermediately differentiated memory CD8+ T cells. CXCR3high CD8+ T cells had a greater ability to migrate in response to CXCR3 ligands than CXCR3low ones. As CXCR3high memory CD8+ T cells do not express CCR5, high expression of CXCR3 on these memory CD8+ T cells might play an important role in the migration of these cells to inflammatory sites and in their differentiation.