急性淋巴细胞白血病的免疫分型及CD4+CD25+T调节细胞检测

背景:在急性淋巴细胞白血病发病过程中,CD4+CD25+T调节细胞对机体免疫反应可能起着一定的调节作用.目的:观察急性淋巴细胞白血病患者的免疫分型及外周血CD4+CD25+T调节细胞的变化情况.方法:采用流式细胞仪对35例急性淋巴细胞白血病患者进行免疫分型,并检测外周血CD4+CD25+T调节细胞的数目,与18名健康对照作比较.结果与结论:急性B细胞淋巴细胞白血病22例,急性T细胞淋巴细胞白血病13例;22例急性B细胞淋巴细胞白血病中CD19的阳性表达率最高(100%),而13例急性T细胞淋巴细胞白血病中CD7阳性表达率最高(100%).急性B细胞淋巴细胞白血病患者外周血CD4+CD25+T调节细胞和急性T细胞淋巴细胞白血病患者差异无显著性意义(P > 0.05),但均高于健康对照(P < 0.05).表明急性B细胞淋巴细胞白血病中CD19阳性表达率最高,急性T细胞淋巴细胞白血病中CD7阳性表达率最高,同时急性淋巴细胞白血病患者外周血CD4+CD25+T调节细胞水平显著增高.     

急性冠脉综合征患者外周血CD4+CD25+调节性T细胞的变化及其临床意义

目的 探讨急性冠脉综合征（acute coronary syndrome,ACS）患者的外周血CD4^＋CD25^＋调节性T细胞（CD4^＋CD25^＋Treg）和CD4^＋CD25^＋曲T细胞（CD4^＋CD25^＋^high Treg）的水平及其临床意义。方法 采用流式细胞术检测15例急性心肌梗死患者、20例不稳定性心绞痛、11例稳定性心绞痛和16例健康体检者（对照组）的外周血CD4^＋CD25^＋Treg和CD4^＋CD25^＋^high Treg的水平。结果 ACS患者CD4^＋CD25^＋Treg占CD4^＋T细胞的比例较稳定性心绞jjl;和对照组显著减少,CD4^＋CD25^＋high Treg占CD4^＋T细胞比例的差异无显著性。结论 ACS患者外周血具有免疫负调节作用的CD4^＋CD25^＋Treg水平减低,可能促进了动脉粥样硬化的进展。     

CD4+CD25+ regulatory T cells suppress allograft rejection mediated by memory CD8+ T cells via a CD30-dependent mechanism

CD4(+)CD25(+) regulatory T (Treg) cells suppress naive T cell responses, prevent autoimmunity, and delay allograft rejection. It is not known, however, whether Treg cells suppress allograft rejection mediated by memory T cells, as the latter mount faster and stronger immune responses than their naive counterparts. Here we show that antigen-induced, but not naive, Treg cells suppress allograft rejection mediated by memory CD8(+) T cells. Suppression was allospecific, as Treg cells induced by third-party antigens did not delay allograft rejection. In vivo and in vitro analyses revealed that the apoptosis of allospecific memory CD8(+) T cells is significantly increased in the presence of antigen-induced Treg cells, while their proliferation remains unaffected. Importantly, neither suppression of allograft rejection nor enhanced apoptosis of memory CD8(+) T cells was observed when Treg cells lacked CD30 or when CD30 ligand-CD30 interaction was blocked with anti-CD30 ligand Ab. This study therefore provides direct evidence that pathogenic memory T cells are amenable to suppression in an antigen-specific manner and identifies CD30 as a molecule that is critical for the regulation of memory T cell responses.     

中国HIV早期感染者CD+4CD+25Foxp3+调节性T淋巴细胞变化研究

目的 研究1年以内感染HIV的感染者(早期感染者,EHI)体内CD+4 CD+25 Foxp3+调节性T淋巴细胞水平及其与疾病进展相关性.方法 随机选取51例HIV感染者,依据感染时间及CD+4 T淋巴细胞水平分为3组:EHI组30例、HIV组15例、AIDS组6例,20名健康人作为对照组,各组对象的年龄、性别具有可比性.用EDTA抗凝管采集全血,应用FACSAria流式细胞仪及Foxp3染色试剂盒,检测外周血单个核细胞CD+4CD+25Foxp3+调节性T淋巴细胞表达水平,分析EHI者及全部HIV感染者CD+4 CD+25Foxp3+调节性T淋巴细胞表达水平与CD+4T淋巴细胞数量、病毒调定点、病毒载量及淋巴细胞活化水平间的相关性.结果 健康对照组、EHI组、HIV组及AIDS组CD+4C+25Foxp3+T淋巴细胞百分率逐级上升,其中EHI组CD+4CD+25Foxp3+T淋巴细胞百分率[3.79(2.11～5.43)%]低于AIDS组[8.09(4.90～8.90)%],差异有统计学意义(Z=-2.29,P=0.022);EHI组CD+4 CD+25Foxp3+T淋巴细胞百分率与病毒调定点正相关(r=0.479,P=0.038),与CD4T淋巴细胞计数呈负相关(r=-0.455,P=0.011),与CD+3 HLA+T淋巴细胞呈正相关(r=0.533,P=0.002).结论 中国EHI者CD+4 CD+25Foxp3+调节性T淋巴细胞百分率高与高病毒调定点及低CD+4 T淋巴细胞数量相关,提示CD+4 CD+25Fox3+调节性T淋巴细胞是加速HIV感染早期疾病进展的因素之一.     

Blockade of T cell costimulation reveals interrelated actions of CD4+ and CD8+ T cells in control of SIV replication

In vivo blockade of CD28 and CD40 T cell costimulation pathways during acute simian immunodeficiency virus (SIV) infection of rhesus macaques was performed to assess the relative contributions of CD4+ T cells, CD8+ T cells, and Ab responses in modulating SIV replication and disease progression. Transient administration of CTLA4-Ig and anti-CD40L mAb to SIV-infected rhesus macaques resulted in dramatic inhibition of the generation of both SIV-specific cellular and humoral immune responses. Acute levels of proliferating CD8+ T cells were associated with early control of SIV viremia but did not predict ensuing set point viremia or survival. The level of in vivo CD4+ T cell proliferation during acute SIV infection correlated with concomitant peak levels of SIV plasma viremia, whereas measures of in vivo CD4+ T cell proliferation that extended into chronic infection correlated with lower SIV viral load and increased survival. These results suggest that proliferating CD4+ T cells function both as sources of virus production and as antiviral effectors and that increased levels of CD4+ T cell proliferation during SIV infections reflect antigen-driven antiviral responses rather than a compensatory homeostatic response. These results highlight the interrelated actions of CD4+ and CD8+ T cell responses in vivo that modulate SIV replication and pathogenesis.     

Revealing the role of CD4+ T cells in viral immunity

Protective immunity to chronic and acute viral infection relies on both the innate and adaptive immune response. Although neutralizing antibody production by B cells and cytotoxic activity of CD8(+) T cells are well-accepted components of the adaptive immune response to viruses, identification of the specific role of CD4(+) T cells in protection has been more challenging to establish. Delineating the contribution of CD4(+) T cells has been complicated by their functional heterogeneity, breadth in antigen specificity, transient appearance in circulation, and sequestration in tissue sites of infection. In this minireview, we discuss recent progress in identifying the multiple roles of CD4(+) T cells in orchestrating and mediating the immune responses against viral pathogens. We highlight several recent reports, including one published in this issue, that have employed comprehensive and sophisticated approaches to provide new evidence for CD4(+) T cells as direct effectors in antiviral immunity.     

Memory CD4+ T cells protect against influenza through multiple synergizing mechanisms

Memory CD4+ T cells combat viral infection and contribute to protective immune responses through multiple mechanisms, but how these pathways interact is unclear. We found that several pathways involving memory CD4+ T cells act together to effectively clear influenza A virus (IAV) in otherwise unprimed mice. Memory CD4+ T cell protection was enhanced through synergy with naive B cells or CD8+ T cells and maximized when both were present. However, memory CD4+ T cells protected against lower viral doses independently of other lymphocytes through production of IFN-γ. Moreover, memory CD4+ T cells selected for epitope-specific viral escape mutants via a perforin-dependent pathway. By deconstructing protective immunity mediated by memory CD4+ T cells, we demonstrated that this population simultaneously acts through multiple pathways to provide a high level of protection that ensures eradication of rapidly mutating pathogens such as IAV. This redundancy indicates the need for reductionist approaches for delineating the individual mechanisms of protection mediated by memory CD4+ T cells responding to pathogens.     

Influenza virus-specific CD4+ T helper type 2 T lymphocytes do not promote recovery from experimental virus infection

T lymphocytes play a primary role in recovery from viral infections and in antiviral immunity. Although viral-specific CD8+ and CD4+ T cells have been shown to be able to lyse virally infected targets in vitro and promote recovery from lethal infection in vivo, the role of CD4+ T lymphocytes and their mechanism(s) of action in viral immunity are not well understood. The ability to further dissect the role that CD4+ T cells play in the immune response to a number of pathogens has been greatly enhanced by evidence for more extensive heterogeneity among the CD4+ T lymphocytes. To further examine the role of CD4+ T cells in the immune response to influenza infection, we have generated influenza virus-specific CD4+ T cell clones from influenza-primed BALB/c mice with differential cytokine secretion profiles that are defined as T helper type 1 (Th1) clones by the production of interleukin 2 (IL-2) and interferon gamma (IFN-gamma), or as Th2 clones by the production of IL-4, IL-5, and IL-10. Our studies have revealed that Th1 clones are cytolytic in vitro and protective against lethal challenge with virus in vivo, whereas Th2 clones are noncytolytic and not protective. Upon further evaluation of these clonal populations we have shown that not only are the Th2 clones nonprotective, but that pulmonary pathology is exacerbated as compared with control mice as evidenced by delayed viral clearance and massive pulmonary eosinophilia. These data suggest that virus-specific CD4+ T cells of the Th2 subset may not play a primary role in virus clearance and recovery and may lead to immune mediated potentiation of injury.     

人CD4+FOXP3+T细胞的异质性研究进展

CD4+ CD25+调节性T细胞(Treg)是一群具有免疫调节功能的细胞,对维持自身免疫耐受和免疫自稳必不可少,FOXP3特异性表达于Treg细胞,是Treg细胞发育、活化、发挥功能的关键.目前,CD4+ FOXP3+T淋巴细胞常被用来定义Treg细胞进行科学研究,而最近研究表明,人CD4+ FOXP3+T淋巴细胞存在表型和功能上的异质性,这其中包括具有免疫抑制功能的CD4+ FOXP3+ Treg,还包含没有抑制功能的其它类型T细胞,而这些不同功能的细胞亚群可以通过表型的差异加以区分.本文就近年来关于CD4+ FOXP3 +T细胞亚群表型特征和功能的异质性研究作一综述.     

CD4+ CD25+ regulatory T cells control T helper cell type 1 responses to foreign antigens induced by mature dendritic cells in vivo

Recent evidence suggests that in addition to their well known stimulatory properties, dendritic cells (DCs) may play a major role in peripheral tolerance. It is still unclear whether a distinct subtype or activation status of DC exists that promotes the differentiation of suppressor rather than effector T cells from naive precursors. In this work, we tested whether the naturally occurring CD4+ CD25+ regulatory T cells (Treg) may control immune responses induced by DCs in vivo. We characterized the immune response induced by adoptive transfer of antigen-pulsed mature DCs into mice depleted or not of CD25+ cells. We found that the development of major histocompatibility complex class I and II-restricted interferon gamma-producing cells was consistently enhanced in the absence of Treg. By contrast, T helper cell (Th)2 priming was down-regulated in the same conditions. This regulation was independent of interleukin 10 production by DCs. Of note, splenic DCs incubated in vitro with Toll-like receptor ligands (lipopolysaccharide or CpG) activated immune responses that remained sensitive to Treg function. Our data further show that mature DCs induced higher cytotoxic activity in CD25-depleted recipients as compared with untreated hosts. We conclude that Treg naturally exert a negative feedback mechanism on Th1-type responses induced by mature DCs in vivo.     

Synergism of cytotoxic T lymphocyte-associated antigen 4 blockade and depletion of CD25(+) regulatory T cells in antitumor therapy reveals alternative pathways for suppression of autoreactive cytotoxic T lymphocyte responses

Therapeutic efficacy of a tumor cell-based vaccine against experimental B16 melanoma requires the disruption of either of two immunoregulatory mechanisms that control autoreactive T cell responses: the cytotoxic T lymphocyte-associated antigen (CTLA)-4 pathway or the CD25(+) regulatory T (Treg) cells. Combination of CTLA-4 blockade and depletion of CD25(+) Treg cells results in maximal tumor rejection. Efficacy of the antitumor therapy correlates with the extent of autoimmune skin depigmentation as well as with the frequency of tyrosinase-related protein 2(180-188)-specific CTLs detected in the periphery. Furthermore, tumor rejection is dependent on the CD8(+) T cell subset. Our data demonstrate that the CTL response against melanoma antigens is an important component of the therapeutic antitumor response and that the reactivity of these CTLs can be augmented through interference with immunoregulatory mechanisms. The synergism in the effects of CTLA-4 blockade and depletion of CD25(+) Treg cells indicates that CD25(+) Treg cells and CTLA-4 signaling represent two alternative pathways for suppression of autoreactive T cell immunity. Simultaneous intervention with both regulatory mechanisms is therefore a promising concept for the induction of therapeutic antitumor immunity.     

CD4+CD25+ T regulatory cells, immunotherapy of cancer, and interleukin-2

CD4+CD25+ T regulatory (Treg) cells control immunologic tolerance to self-antigens and play a role in suppressing antitumor immune responses, but the mechanism of suppression in vivo remains uncertain. Recently, signaling through the high-affinity interleukin-2 (IL-2) receptor has been shown to be critical for Treg cell differentiation and survival in vivo. Mice deficient in IL-2 or its receptor (CD25 or CD122) or deficient in downstream signaling molecules, including JAK-3 and STAT-5, do not develop a stable population of Treg cells and subsequently acquire lymphoproliferative disease and autoimmunity. in vitro, IL-2 is required to expand Treg cells and to induce their suppressive characteristics. Conversely, IL-2-based regimens can activate cellular antitumor immunity and are the mainstay of immunotherapies directed against melanoma and kidney cancers. Given the seemingly disparate effects of IL-2, the authors discuss the possibility that IL-2 may not be the optimal T-cell growth factor in vivo, but rather an inducer of self-tolerance. The authors propose that other gamma c-signaling cytokines, including IL-15, may be alternative choices for the immunotherapy of cancer.     

Depletion of CD4+ CD25+ regulatory cells augments the generation of specific immune T cells in tumor-draining lymph nodes

Recent studies have identified a unique population of CD4+CD25+ regulatory T cells that is crucial for the prevention of spontaneous autoimmune diseases. Further studies demonstrated that depletion of CD4+CD25+ T cells enhances immune responses to nonself antigens. Because immune responses to malignant tumors are weak and ineffective, depletion of regulatory T cells has been reported to result in tumor regression. In the current study, using the weakly immunogenic MCA205 sarcoma and the poorly immunogenic B16/BL6/D5 (D5) melanoma, depletion of CD4+CD25+ T cells by the administration of anti-CD25 monoclonal antibodies (mAb), PC61 induced some tumor growth retardation, but all mice eventually succumbed to tumors. In our laboratory, immunotherapy by the transfer of tumor-immune T cells has demonstrated potent antitumor effects. A reliable source of tumor-reactive T cells has been lymph nodes (LN) draining progressive tumors. Therapeutic effector T cells can be generated by in vitro activation of draining LN cells with anti-CD3 mAb followed by culture in interleukin-2. In this system, PC61 mAb depletion of CD4+CD25+ T cells before or on day 8 of tumor growth resulted in increased sensitization in the draining LN. The therapeutic efficacy of activated tumor-draining LN cells from mAb depleted mice increased approximately three fold while maintaining specificity when tested in adoptive immunotherapy of established pulmonary metastases. Specific interferon-gamma secretion by LN T cells from mice treated with PC61 mAb 1 day before tumor inoculation increased significantly. However, this increase was not demonstrated with LN T cells from mice treated on day 8 despite their enhanced therapeutic reactivities. Our results indicate that although the antitumor immunity enhanced by the depletion of CD4+CD25+ T cells is insufficient to eradicate tumors, it augments the sensitization of immune T cells in the draining LN, thus, facilitating adoptive immunotherapy.     

Viral vectors for inducing CD8+ T cell responses

CD8⁺ T cells (T_CD8+) can mediate protective immunity to intracellular pathogens and tumours. Viruses generate strong T_CD8+ responses and, therefore, represent attractive vectors for generating vaccines aimed at producing T_CD8+-mediated protective immunity. This review will examine the immunological properties of viruses that make them good candidates as vaccine vectors, as well as the manipulations of both vector and antigen that may be required to produce an effective vaccine. The areas addressed include virus infection of dendritic cells in vivo, stimulation of the innate immune response via intracellular and extracellular pattern recognition receptors, the effect of antigenic form on the pathways of antigen presentation and the requirement for elimination of viral genes that target various aspects of the innate and adaptive immune response.     

Age-related CD8 T cell clonal expansions constrict CD8 T cell repertoire and have the potential to impair immune defense

Peripheral T cell diversity is virtually constant in the young, but is invariably reduced in aged mice and humans. CD8+ T cell clonal expansions (TCE) are the most drastic manifestation of, and possible contributors to, this reduced diversity. We show that the presence of TCE results in reduced CD8+, but not CD4+, T cell diversity, and in functional inability to mobilize parts of the CD8+ T cell repertoire affected by TCE. In the model of herpes simplex virus (HSV)-1 infection of B6 mice, >90% of the responding CD8+ T cells use Vbeta10 or Vbeta8 and are directed against a single glycoprotein B (gB498-505) epitope, gB-8p. We found that old animals bearing CD8+ TCE within Vbeta10 or Vbeta8 families failed to mount an effective immune response against HSV-1, as judged by reduced numbers of peptide-major histocompatibility complex tetramer+ CD8 T cells and an absence of antiviral lytic function. Furthermore, Vbeta8 TCE experimentally introduced into young mice resulted in lower resistance to viral challenge, whereas Vbeta5+ TCE induced in a similar fashion did not impact viral resistance. These results demonstrate that age-related TCE functionally impair the efficacy of antiviral CD8+ T cell immunity in an antigen-specific manner, strongly suggesting that TCE are not the mere manifestation of, but are also a contributing factor to, the immunodeficiency of senescence.     

Regulatory CD4+CD25+ T cells restrict memory CD8+ T cell responses

CD4+ T cell help is important for the generation of CD8+ T cell responses. We used depleting anti-CD4 mAb to analyze the role of CD4+ T cells for memory CD8+ T cell responses after secondary infection of mice with the intracellular bacterium Listeria monocytogenes, or after boost immunization by specific peptide or DNA vaccination. Surprisingly, anti-CD4 mAb treatment during secondary CD8+ T cell responses markedly enlarged the population size of antigen-specific CD8+ T cells. After boost immunization with peptide or DNA, this effect was particularly profound, and antigen-specific CD8+ T cell populations were enlarged at least 10-fold. In terms of cytokine production and cytotoxicity, the enlarged CD8+ T cell population consisted of functional effector T cells. In depletion and transfer experiments, the suppressive function could be ascribed to CD4+CD25+ T cells. Our results demonstrate that CD4+ T cells control the CD8+ T cell response in two directions. Initially, they promote the generation of a CD8+ T cell responses and later they restrain the strength of the CD8+ T cell memory response. Down-modulation of CD8+ T cell responses during infection could prevent harmful consequences after eradication of the pathogen.     

不同树突状细胞对CD4~+CD25~+Foxp3~+调节性T细胞体外扩增的影响

目的利用不同种类树突状细胞(dendritic cells,DC)体外扩增获得表型和功能稳定的CD4+CD25+Foxp3+调节性T细胞(Treg)。方法免疫磁珠法(MACS)分离Balb/c小鼠CD4+CD25+调节性T细胞,利用与调节性T细胞同基因或异基因成熟DC、未成熟DC和调节性DC刺激其扩增,流式细胞术测定其纯度和表型。以CD4+CD25-T细胞作为反应细胞,验证扩增前后Treg细胞的免疫抑制功能。结果MACS分离的CD4+CD25+调节性T细胞纯度达到(95.38±1.82)%,同基因和异基因DC都能有效刺激Treg细胞体外扩增,其中同基因成熟DC扩增效果最为明显。而且同基因成熟DC扩增后CD4+CD25+调节性T细胞纯度达到(94.16±1.88)%,而且高表达Foxp3分子。当CD4+CD25+调节性T细胞与效应T细胞比例为1∶1时,能够有效的抑制效应T细胞的增殖,而且,同基因成熟DC扩增的CD4+CD25+调节性T细胞的抑制效果比新分离的Treg效果更好。结论同基因成熟DC能够体外扩增表型和功能稳定的Treg细胞。     

P38 MAP Kinase Signaling Is Required for the Conversion of CD4+CD25− T Cells into iTreg

CD4+CD25+ regulatory T cells (Treg) are important mediators of immune tolerance. A subset of Treg can be generated in the periphery by TGF-beta dependent conversion of conventional CD4+CD25− T cells into induced Treg (iTreg). In chronic viral infection or malignancy, such induced iTreg, which limit the depletion of aberrant or infected cells, may be of pathogenic relevance. To identify potential targets for therapeutic intervention, we investigated the TGF-beta signaling in Treg. In contrast to conventional CD4+ T cells, Treg exhibited marked activation of the p38 MAP kinase pathway. Inhibition of p38 MAP kinase activity prevented the TGF-beta-dependent conversion of CD4+CD25− T cells into Foxp3+ iTreg in vitro. Of note, the suppressive capacity of nTreg was not affected by inhibiting p38 MAP kinase. Our findings indicate that signaling via p38 MAP kinase seems to be important for the peripheral generation of iTreg; p38 MAP kinase could thus be a therapeutic target to enhance immunity to chronic viral infection or cancer.