Astrocytes Modulate the Polarization of CD4+ T Cells to Th1 Cells

T-cell characteristics are dynamic and influenced by multiple factors. To test whether cells and the environment in the central nervous system (CNS) can influence T-cells, we tested if culturing mouse CD4⁺ T-cells on mouse primary astrocytes, compared with standard feeder cells, modified T-cell polarization to Th1 and Treg subtypes. Astrocytes supported the production of Th1 cells and Tregs, which was diminished by inflammatory activation of astrocytes, and glutamate accumulation that may result from impaired glutamate uptake by astrocytes strongly promoted Th1 production. These results demonstrate that astrocytes and the environment in the CNS have the capacity to regulate T-cell characteristics.     

MELOE-1 Antigen Contains Multiple HLA Class II T Cell Epitopes Recognized by Th1 CD4+ T Cells from Melanoma Patients

MELOE-1 is an overexpressed melanoma antigen containing a HLA-A2 restricted epitope, involved in melanoma immunosurveillance of patients adoptively transferred with tumour infiltrating lymphocytes (TIL). The use of the full-length antigen (46 aa) for anti-melanoma vaccination could be considered, subject to the presence of Th epitopes all along MELOE-1 sequence. Thus, in this study we evaluated in vitro the immunoprevalence of the different regions of MELOE-1 (i.e. their ability to induce CD4 T cell responses in vitro from PBMC). Stimulation of PBMC from healthy subjects with MELOE-1 induced the amplification of CD4 T cells specific for various regions of the protein in multiple HLA contexts, for each tested donor. We confirmed these results in a panel of melanoma patients, and documented that MELOE-1 specific CD4 T cells, were mainly Th1 cells, presumably favourable to the amplification of CD8 specific T cells. Using autologous DC, we further showed that these class II epitopes could be naturally processed from MELOE-1 whole protein and identified minimal epitopes derived from each region of MELOE-1, and presented in four distinct HLA contexts. In conclusion, vaccination with MELOE-1 whole polypeptide should induce specific Th1 CD4 responses in a majority of melanoma patients, stimulating the amplification of CD8 effector cells, reactive against melanoma cells.     

An Exhaustion-Like Phenotype Constrains the Activity of CD4+ T Cells Specific for a Self and Melanoma Antigen

While the immune system has the capacity to recognize and destroy melanoma, tolerance mechanisms often hinder the development of effective anti-tumor immune responses. Since many melanoma antigens are self proteins expressed in normal melanocytes, self antigen exposure before tumor development can negatively impact the function of T cells specific for these self/tumor antigens. However, the contribution of self tolerance to anti-melanoma T cell dysfunction remains largely unexplored. We have previously described a TCR transgenic (Tg) mouse model in which T cells specific for the self/melanoma antigen, tyrosinase-related protein 1 (TRP1), develop in the presence of endogenous TRP1 expression (Ag+) and diminished antigen presentation due to the absence of gamma-interferon-inducible lysosomal thiol reductase (GILT-/-). We show that TRP1-specific T cells from these Ag+GILT-/-Tg mice do not protect from melanoma tumor growth, fail to induce autoimmune vitiligo, and undergo diminished proliferation compared to T cells from Ag-GILT+/+Tg mice. Despite an increased frequency of TRP1-specific Treg cells in Ag+GILT-/-Tg mice compared to Ag-GILT+/+Tg animals, Treg cell depletion only partially rescues the proliferative capacity of T cells from TRP1-expressing mice, suggesting the involvement of additional suppressive mechanisms. An increased percentage of melanoma-specific T cells from Ag+GILT-/-Tg animals express PD-1, an inhibitory receptor associated with the maintenance of T cell exhaustion. Antibody blockade of PD-1 partially improves the ability of TRP1-specific T cells from Ag+GILT-/-Tg mice to produce IL-2. These findings demonstrate that melanoma-specific T cells exposed to a self/melanoma antigen in healthy tissue develop an exhaustion-like phenotype characterized by PD-1-mediated immunosuppression prior to encounter with tumor.     

IL-2 Inhibited the Generation of CD4+ Memory T Cells

The survival of T cells at different stages of development is dependent on extrinsic signals. IL-7 is necessary for the development of memory T cells. IL-7 could induce and maintain the differentiation, survival, and proliferation of CD4⁺ memory T cells, and the roles of IL-2 and IL-15 in the generation of CD4⁺ memory T cells were still unclear. A CD4⁺ memory T cells in vitro generated system by adding IL-7. The phenotype of CD4⁺ memory T cells was identified by FACS. The cells proliferation was analyzed by CFSE staining. The involved signal pathways were analyzed by Western blot. We found that IL-2, not IL-15, could inhibit CD4⁺ memory T cells generation. Western blot showed that IL-7 up-regulated the P-STAT5A expression and down-regulated Bax expression, IL-2 reduced the effect of IL-7. Besides, IL-2-combined IL-7 up-regulated the P-AKT and Foxo3a expression a little. In conclusion, our data revealed the inhibitory role of IL-2 in CD4⁺ memory T cells generation and indicated that PI3K/AKT signal pathway was involved.     

Antigen Presenting B Cells Facilitate CD4 T Cell Cooperation Resulting in Enhanced Generation of Effector and Memory CD4 T Cells

We show that the in vivo generation of cytokine-producing CD4 T cells specific for a given major histocompatibility class-II (MHCII)-binding peptide of hen egg lysozyme (HEL) is facilitated when mice are immunized with splenic antigen presenting cells (APC) pulsed with this HEL peptide and another peptide that binds a different MHCII molecule. This enhanced generation of peptide-specific effector CD4 T cells requires that the same splenic APC be pulsed with both peptides. Pulsed B cells, but not pulsed dendritic cells (DCs), can mediate CD4 T cell cooperation, which can be blocked by disrupting OX40-OX40L (CD134-CD252) interactions. In addition, the generation of HEL peptide-specific CD4 T cell memory is greater when mice are primed with B cells pulsed with the two peptides than with B cells pulsed with the HEL- peptide alone. Based on our findings, we suggest CD4 T cell cooperation is important for vaccine design, underlies the phenomenon of “epitope-spreading” seen in autoimmunity, and that the efficacy of B cell-depletion in the treatment of human cell-mediated autoimmune disease is due to the abrogation of the interactions between autoimmune CD4 T cells that facilitates their activation.     

原发性肝癌患者Th1/Th2 亚群研究*

目的:探讨原发性肝癌患者血清中淋巴细胞亚群中Th1/Th2的变化,为分析肝癌的发生发展状症和临床治疗提供免疫学指标。方法:应用放射免疫分析及酶联免疫分析法(ELISA),测定46例肝癌患者,及43例正常对照组进行比较。以IL-2、INF-γ和TNF-α水平代表Th1型细胞因子,以IL-4,IL-6、IL-8、IL-10的水平代表Th2型细胞因子。结果:肝癌患者IL-2、TNF-γ、IL-6的水平明显低正常对照组,P<0.01。IL-4、IL-8、IL-10、TNF-α的水平明显高于正常对照组,P<0.01。结论:肝癌患者体内存在Th1/Th2细胞因子失衡,其中Th1亚群功能抑制,Th2亚群功能亢进,其与肿瘤在宿主体内生长密切相关。通过纠正这些免疫失调将成为肝癌治疗的重要手段。     

致死型夏氏疟原虫感染BALB/c小鼠CD4~＋ CD25~＋ Foxp3~＋调节性T细胞在Th2免疫应答极化中的作用研究

为探讨CD4＋ CD25＋ Foxp3＋调节性T细胞（Treg细胞）在疟疾感染过程中对Th2极化的调控作用,利用Treg细胞消除的致死型夏氏疟原虫（Plasmodium chabaudi chabaudi AS,P.c chabaudi AS）感染鼠疟模型进行研究。结果显示,对照组小鼠在感染后8 d原虫血症达到峰值40.5%,随后迅速下降,于感染后18 d小鼠自愈。相比,Treg细胞消除组于感染后10 d,原虫血症水平迅速上升至32%,随后小鼠相继死亡。在感染后8～10 d,Treg细胞消除小鼠脾脏CD4＋ CD25＋ Foxp3＋细胞占CD4＋细胞百分比含量明显低于对照组。同时,血清疟原虫特异性抗体IgG1和IgG2a水平均明显降低。结果提示,P.c chabaudi AS感染中CD4＋ CD25＋ Foxp3＋细胞参与调控Th2型免疫应答的极化,进而干预疟原虫清除。     

IL-27 promotes IL-10 production by effector Th1 CD4+ T cells: a critical mechanism for protection from severe immunopathology during malaria infection

Infection with the malaria parasite, Plasmodium, is characterized by excessive inflammation. The establishment of a precise balance between the pro- and anti-inflammatory responses is critical to guarantee control of the parasite and survival of the host. IL-10, a key regulatory cytokine produced by many cells of the immune system, has been shown to protect mice against pathology during acute Plasmodium0 chabaudi chabaudi AS model of malaria. However, the critical cellular source of IL-10 is still unknown. In this article, we demonstrate that T cell-derived IL-10 is necessary for the control of pathology during acute malaria, as mice bearing specific deletion of Il10 in T cells fully reproduce the phenotype observed in Il10(-)(/)(-) mice, with significant weight loss, decline in temperature, and increased mortality. Furthermore, we show that IFN-γ(+) Th1 cells are the main producers of IL-10 throughout acute infection, expressing high levels of CD44 and ICOS, and low levels of CD127. Although Foxp3(+) regulatory CD4(+) T cells produce IL-10 during infection, highly activated IFN-γ(+) Th1 cells were shown to be the essential and sufficient source of IL-10 to guarantee protection against severe immune-mediated pathology. Finally, in this model of malaria, we demonstrate that the generation of protective IL10(+)IFN-γ(+) Th1 cells is dependent on IL-27 signaling and independent of IL-21.     

细胞外基质金属蛋白酶诱导分子（CD147）在胰腺癌细胞及胰腺星状细胞中的表达

目的：探讨细胞外基质金属蛋白酶诱导分子（CD147）在胰腺癌细胞（Panc-1）及胰腺星状细胞（PSCs）的表达。方法：应用QRT—PCR,免疫细胞化学和免疫印迹分析方法检测Panc-1和PSCs细胞中EMMRPIN的表达,应用脱糖基化试剂N—glycosidase F及Endoglycosidase H鉴定CD147糖基化形式。结果：CD147在Panc-1和PSCs细胞质膜及细胞质中高表达,通过脱糖基化法首次鉴定出胰腺癌细胞及胰腺星状细胞中CD147不同的糖基化修饰。结论：CD147的糖基化修饰具有细胞特异性,可能与细胞恶性程度相关。     

细胞外基质金属蛋白酶诱导分子(CD147)在胰腺癌细胞及胰腺星状细胞中的表达(英文)

目的:探讨细胞外基质金属蛋白酶诱导分子(CD147)在胰腺癌细胞(Panc-1)及胰腺星状细胞(PSCs)的表达。方法:应用QRT-PCR,免疫细胞化学和免疫印迹分析方法检测Panc-1和PSCs细胞中EMMRPIN的表达,应用脱糖基化试剂N-glycosidase F及Endoglycosidase H鉴定CD147糖基化形式。结果:CD147在Panc-1和PSCs细胞质膜及细胞质中高表达,通过脱糖基化法首次鉴定出胰腺癌细胞及胰腺星状细胞中CD147不同的糖基化修饰。结论:CD147的糖基化修饰具有细胞特异性,可能与细胞恶性程度相关。     

宫颈癌患者外周血CD4+CD25+high调节性T细胞的表达及意义

目的:探讨宫颈癌患者外周血中CD4~ CD25~( high)调节性T(regulator T cells,Tr)的表达及意义。方法:采用流式细胞术检测52例宫颈癌患者,35例健康女性外周血中CD4~ CD25~( high)Tr、细胞毒性T细胞(cytotoxic T lymphocytes,CTL)和NK细胞,采用ELISA检测血清中-干扰素(interferon,IFN-)的表达水平。结果:宫颈癌患者外周血CD4~ CD25~( high)Tr占CD4~ T淋巴细胞的百分比为(7.18±2.32)%,高于健康女性组(P<0.05);宫颈癌患者外周血CD4~ CD25~( high)Tr水平与CTL、NK细胞及IFN-水平呈负相关。结论:宫颈癌患者外周血中具免疫抑制活性的CD4~ CD25~( high)Tr水平较高,参与宫颈癌患者的肿瘤免疫抑制。     

IL-33 Induces IL-9 Production in Human CD4+ T Cells and Basophils

IL-33, an IL-1 family member and ligand for the IL-1 receptor-related protein ST2, has been associated with induction of Th2 cytokines such as IL-4, IL-5, and IL-13. Here, we report that IL-33 can initiate IL-9 protein secretion in vitro in human CD4+ T cells and basophils isolated from peripheral blood. TGF-β has been described as a critical factor for IL-9 induction in Th2 cells; however, we found that TGF-β also induces co-production of IL-9 in purified, naïve (>99%) CD4⁺CD45RA⁺CD45RO⁻CD25⁻ T cells differentiated towards a Th1 profile. Subsequently, it was demonstrated that TGF-β is important, although not an absolute requirement, for IL-9 production in CD4+ T cells. IL-9 production by purified (>95%) human basophils, cultured for 24 h with IL-3 or IL-33, was found, with a strong synergy between the two, likely to be explained by the IL-3 upregulated ST2 expression. Collectively, these data indicate that barrier functioning cells are important for the regulation of IL-9 production by immune cells in inflamed tissue.     

Immunological Memory Transferred with CD4 T Cells Specific for Tuberculosis Antigens Ag85B-TB10.4: Persisting Antigen Enhances Protection

Background

High levels of death and morbidity worldwide caused by tuberculosis has stimulated efforts to develop a new vaccine to replace BCG. A number of Mycobacterium tuberculosis (Mtb)-specific antigens have been synthesised as recombinant subunit vaccines for clinical evaluation. Recently a fusion protein of TB antigen Ag85B combined with a second immunodominant TB antigen TB10.4 was emulsified with a novel non-phospholipid-based liposomal adjuvant to produce a new subunit vaccine, investigated here. Currently, there is no consensus as to whether or not long-term T cell memory depends on a source of persisting antigen. To explore this and questions regarding lifespan, phenotype and cytokine patterns of CD4 memory T cells, we developed an animal model in which vaccine-induced CD4 memory T cells could transfer immunity to irradiated recipients.

Methodology/Principal Findings

The transfer of protective immunity using Ag85B-TB10.4-specific, CD45RB^low CD62L^low CD4 T cells was assessed in sub-lethally irradiated recipients following challenge with live BCG, used here as a surrogate for virulent Mtb. Donor T cells also carried an allotype marker allowing us to monitor numbers of antigen-specific, cytokine-producing CD4 T cells in recipients. The results showed that both Ag85B-TB10.4 and BCG vaccination induced immunity that could be transferred with a single injection of 3×10⁶ CD4 T cells. Ten times fewer numbers of CD4 T cells (0.3×10⁶) from donors immunised with Ag85B-TB10.4 vaccine alone, transferred equivalent protection. CD4 T cells from donors primed by BCG and boosted with the vaccine similarly transferred protective immunity. When BCG challenge was delayed for 1 or 2 months after transfer (a test of memory T cell survival) recipients remained protected. Importantly, recipients that contained persisting antigen, either live BCG or inert vaccine, showed significantly higher levels of protection (p<0.01). Overall the numbers of IFN-γ-producing CD4 T cells were poorly correlated with levels of protection.

Conclusions/Significance

The Ag85B-TB10.4 vaccine, with or without BCG-priming, generated TB-specific CD4 T cells that transferred protective immunity in mice challenged with BCG. The level of protection was enhanced in recipients containing a residual source of specific antigen that could be either viable or inert.     

细胞SELEX技术用于胰腺癌细胞特异性适配体的筛选及鉴定

细胞SELEX是目前常用的筛选细胞特异性适配体的技术。胰腺癌细胞特异性适配体在胰腺癌的诊断和治疗中有巨大的应用潜力。本研究拟通过该技术获得特异性识别胰腺癌PANC-1细胞的适配体,并对所筛选的适配体进行功能鉴定。本研究以胰腺癌PANC-1细胞为正筛细胞,正常胰腺导管上皮细胞HPDE6-C7为负筛细胞,通过磁珠法细胞SELEX技术进行筛选。经过12轮筛选,对筛选文库进行PCR扩增、质粒转染、单克隆挑选及测序,获得2条适配体Apt-5和Apt-12。流式细胞术检测发现,适配体Apt-5和Apt-12可特异性识别PANC-1细胞,其Kd值分别为8.27±2.10 nmol/L和8.88±2.51 nmol/L,Kd值均处于纳摩尔级别。通过RNA结构预测,2条适配体的二级结构均为茎-环结构。细胞免疫荧光验证了适配体的结合部位为细胞膜表面。本研究表明,通过磁珠法细胞SELEX技术,成功获得可特异性识别胰腺癌PANC-1细胞的适配体。该适配体有望成为胰腺癌诊断和治疗中的特异性分子靶向剂。     

Deviation from a strong Th1-dominated to a modest Th17-dominated CD4 T cell response in the absence of IL-12p40 and type I IFNs sustains protective CD8 T cells

The differentiation of naive CD4 T cells into specific effector subsets is controlled in large part by the milieu of cytokines present during their initial encounter with Ag. Cytokines that drive differentiation of the newly described Th17 lineage have been characterized in vitro, but the cytokines that prime commitment to this lineage in response to infection in vivo are less clear. Listeria monocytogenes (Lm) induces a strong Th1 response in wild-type mice. By contrast, we demonstrate that in the absence of IL-12p40 (or IFN-gamma) and type I IFN receptor signaling, the Th1 Ag-specific CD4 T cell response is virtually abolished and replaced by a relatively low magnitude Th17-dominated response. This Th17 response was dependent on TGF-beta and IL-6. Despite this change in CD4 T cell response, neither the kinetics of the CD4 and CD8 T cell responses, the quality of the CD8 T cell response, nor the ability of CD8 T cells to mediate protection were affected. Thus, generation of protective CD8 T cell immunity was resilient to perturbations that replace a strong Th1-dominated to a reduced magnitude Th17-dominated Ag-specific CD4 T cell response.     

Interleukin 12 and CD86 Regulate Th1 and Th2 Development Induced by a Range of Antigen Doses Presented by Peyer's Patch and Spleen Cells

In this study, we demonstrate the role of interleukin 12 (IL-12), CD80 and CD86 in T helper type 1 (Th1) and Th2 differentiation induced through antigen presentation by Peyer's patch (PP) and spleen (SPL) cells with various doses of antigen. IL-12 was found to be critical for the induction of Th1-type cytokine producing cells, while antigen-dose dependent patterns of differentiation into Th2-type cytokine producing cells were not altered by the blockade of IL-12. Further, the difference in the pattern of Th2-type cytokine producing cell differentiation induced by PP and SPL cells depending on the antigen dosage were preserved in the absence of IL-12. When the function of CD86 was blocked by specific antibody, the induction of Th1-type cytokine producing cells was kept at high levels through every antigen dose, and the difference between PP and SPL cells was abrogated. With regard to Th2 induction, CD86 enhanced the differentiation of Th2-type cytokine producing cells but it was not essential in the case of antigen presentation by SPL cells. These results suggest that antigen-dose dependent changes in Th2 cell induction are regulated by additional factors which cannot induce antigen-dose dependent changes in Th1 cell differentiation by themselves.     

CD154 and IL-2 Signaling of CD4+ T Cells Play a Critical Role in Multiple Phases of CD8+ CTL Responses Following Adenovirus Vaccination

Adenoviral (AdV) vectors represent most commonly utilized viral vaccines in clinical studies. While the role of CD8⁺ cytotoxic T lymphocyte (CTL) responses in mediating AdV-induced protection is well understood, the involvement of CD4⁺ T cell-provided signals in the development of functional CD8⁺ CTL responses remain unclear. To explore CD4⁺ T helper signals required for AdVova-stimulated CTL responses, we established an adoptive transfer system by transferring CD4⁺ T cells derived from various knock out and transgenic mice into wild-type and/or CD4-deficient animals, followed by immunizing with recombinant ovalbumin (OVA)-expressing AdVova vector. Without CD4⁺ T help, both primary and memory CTL responses were greatly reduced in this model, and were associated with increased PD-1 expression. The provision of OVA-specific CD4⁺ T help in CD4⁺ T cell-deficient mice restored AdVova-induced primary CTL responses, and supported survival and recall responses of AdVova-stimulated memory CTLs. These effects were specifically mediated by CD4⁺ T cell-produced IL-2 and CD154 signals. Adoptive transfer of “helped” or “unhelped” effector and memory CTLs into naïve CD4⁺ T cell-deficient or -sufficient mice also revealed an additional role for polyclonal CD4⁺ T cell environment in the survival of AdVova-stimulated CTLs, partially explaining the extension of CTL contraction phase. Finally, during recall responses, CD4⁺ T cell environment, particularly involving memory CD4⁺ T cells, greatly enhanced expansion of memory CTLs. Collectively, our data strongly suggest a critical role for CD4⁺ T help in multiple phases of AdV-stimulated CTL responses, and could partially explain certain failures in AdV-based immunization trials targeting malignant tumors and chronic diseases that are often associated with compromised CD4⁺ T cell population and function.     

Cutting edge: IL-4-induced protection of CD4+CD25- Th cells from CD4+CD25+ regulatory T cell-mediated suppression

CD4(+)CD25(+) T regulatory (Treg) cells are a CD4(+) T cell subset involved in the control of the immune response. In vitro, murine CD4(+)CD25(+) Treg cells inhibit CD4(+)CD25(-) Th cell proliferation induced by anti-CD3 mAb in the presence of APCs. The addition of IL-4 to cocultured cells inhibits CD4(+)CD25(+) Treg cell-mediated suppression. Since all cell types used in the coculture express the IL-4Ralpha chain, we used different combinations of CD4(+)CD25(-) Th cells, CD4(+)CD25(+) Treg cells, and APCs from wild-type IL-4Ralpha(+/+) or knockout IL-4Ralpha(-/-) mice. Results show that the engagement of the IL-4Ralpha chain on CD4(+)CD25(-) Th cells renders these cells resistant to suppression. Moreover, the addition of IL-4 promotes proliferation of IL-4Ralpha(+/+)CD4(+)CD25(+) Treg cells, which preserve full suppressive competence. These findings support an essential role of IL-4 signaling for CD4(+)CD25(-) Th cell activation and indicate that IL-4-induced proliferation of CD4(+)CD25(+) Treg cells is compatible with their suppressive activity.