Instruction of naive CD4+ T-cell fate to T-bet expression and T helper 1 development: roles of T-cell receptor-mediated signals

Using T-cell receptor (TCR) transgenic mice, we demonstrate that TCR stimulation of naive CD4(+) T cells induces transient T-bet expression, interleukin (IL)-12 receptor beta2 up-regulation, and GATA-3 down-regulation, which leads to T helper (Th)1 differentiation even when the cells are stimulated with peptide-loaded I-A(b)-transfected Chinese hamster ovary cells in the absence of interferon-gamma (IFN-gamma) and IL-12. Sustained IFN-gamma and IL-12 stimulation augments naive T-cell differentiation into Th1 cells. Intriguingly, a significant Th1 response is observed even when T-bet(-/-) naive CD4(+) T cells are stimulated through TCR in the absence of IFN-gamma or IL-12. Stimulation of naive CD4(+) T cells in the absence of IFN-gamma or IL-12 with altered peptide ligand, whose avidity to the TCR is lower than that of original peptide, fails to up-regulate transient T-bet expression, sustains GATA-3 expression, and induces differentiation into Th2 cells. These results support the notion that direct interaction between TCR and peptide-loaded antigen-presenting cells, even in the absence of T-bet expression and costimulatory signals, primarily determine the fate of naive CD4(+) T cells to Th1 cells.     

"Bystander polarization" of CD4+ T cells: activation with high-dose IL-2 renders naive T cells responsive to IL-12 and/or IL-18 in the absence of TCR ligation

Responsiveness of CD4+ T cells to the IFN-gamma-inducing cytokines IL-12 and IL-18 is generally thought to be acquired only after stimulation via the TCR. We report herein that stimulation of naive CD4+ T cells with high-dose IL-2 (1000 U/ml) renders these cells responsive to IL-12 and/or IL-18 without a requirement for TCR ligation. Naive CD4+CD62L+ Tcells from normal C57BL/6 mice or from DO11.10/Rag2(-/- )OVA-specific TCR-transgenic mice secreted substantial amounts of IFN-gamma when stimulated concurrently with high-dose IL-2 plus IL-12 or IL-18. mRNA encoding both chains of the IL-12 and the IL-18 receptors was expressed by CD4+ T cells after stimulation with high-dose IL-2. Furthermore, anti-CD3-induced IL-12/IL-18 responsiveness was fully abrogated in the presence of cyclosporin A whereas IL-2-induced IL-12/IL-18 responsiveness was not, reminiscent of the previously reported IL-12+IL-18 innate pathway of T cell activation. Lastly, after stimulation with IL-2+IL-12, naive CD4+ T cells from DO11.10/Rag2(-/- )mice exhibited polarization towards a Th1 phenotype (high IFN-gamma but no IL-4) during secondary stimulation with immobilized anti-CD3. We have coined the term "bystander polarization" to describe this phenomenon and we speculate that bystander polarization of naive CD4+ T cells may occur in vivo during strong antigen-specific immune responses.     

CD4-CD8- T cells bearing invariant Valpha24JalphaQ TCR alpha-chain are decreased in patients with atopic diseases

Atopic disorders are caused by disregulated activation of T helper 2 (Th2) cells that produce IL-4 and IL-5. Because the presence of IL-4 potently augments the differentiation of naive T cells into Th2 cells, it is important to seek the cell population which provides IL-4 for naive T cells. Recently, a unique subpopulation of T cells, natural killer (NK) T cells, has been shown to produce a large amount of IL-4 upon activation, suggesting their regulatory role in initiation of Th2 cell differentiation. To determine whether NK T cells play a regulatory role in human Th2 cell-mediated atopic diseases, we analysed the frequency of invariant Valpha24JalphaQ CD4-CD8- double-negative (DN) T cells, human NK T cells, in patients with atopic asthma and atopic dermatitis. We also studied cytokine production from Valpha24+ Vbeta11+ DN T cells, which comprise most of Valpha24JalphaQ DN T cells. We found that the invariant Valpha24JalphaQ DN T cells were greatly diminished in patients with asthma and atopic dermatitis. On the other hand, there was no significant difference in Valpha24+ CD4+ T cells possessing invariant Valpha24JalphaQ TCR between healthy subjects and atopic patients. We also found that Valpha24+ Vbeta11+ DN T cells from healthy subjects predominantly produced interferon-gamma (IFN-gamma) but not IL-4 upon activation. These results suggest that NK T cells may not be essential for human atopic disease and that the disappearance of NK T cells, most of which produce IFN-gamma, may be involved in the pathogenesis of atopic diseases.     

抗原特异性初始CD4+T细胞的体内分化及特性

为了探讨抗原特异性CD4+T细胞在体内的分裂、表型、Th1细胞因子的产生和组织器官的分布。将CFSE标记的抗原特异性初始CD4+T细胞静脉被动输给小鼠后,进行免疫,3d后处死小鼠取其脾脏、淋巴结和肺组织,分离单个核细胞,利用流式细胞计数仪在单个细胞水平上,观察细胞的分裂、表型、Th1细胞因子的产生和组织分布。结果显示在没有抗原刺激的情况下,未见初始CD4+T细胞分裂,其主要分布于淋巴结和脾脏。当受到抗原刺激后,CD4+T细胞分裂1～5次,主要分布于脾脏和肺组织,CD25的表达增加,CD62L的表达随着细胞分裂次数的增加而减少。IL-12促进CD25的表达和细胞的分裂。促进Th1细胞的分化和IFN-γ的表达。研究的结果提示,在体内,当CD4+T细胞活化后,主要分布于脾和非淋巴组织发挥其免疫效应。     

CD46-mediated costimulation induces a Th1-biased response and enhances early TCR/CD3 signaling in human CD4+ T lymphocytes

The role of membrane cofactor protein (MCP, CD46) on human T cell activation has been analyzed. Coligation of CD3 and CD46 in the presence of PMA or CD28 costimuli enhanced IL-2, IFN-gamma, or IL-10 secretion by CD4+ T lymphocytes. The effect of CD46 on IL-10 secretion did not require additional costimuli like anti-CD28 antibodies or phorbol esters. CD46 also enhanced IL-2 or IFN-gamma secretion by CD4+ blasts. In contrast, IL-5 secretion was inhibited upon CD46-CD3 coligation, in all the cells analyzed. These effects were independent of IL-12 and suggest that CD46 costimulation promotes a Th1-biased response in human CD4+ T lymphocytes. CD46 enhanced TCR/CD3-induced tyrosine phosphorylation of CD3zeta and ZAP-70, as well as the activation of the ERK, JNK, and p38, but did not modify intracellular calcium. The effect of specific inhibitors shows that enhanced ERK activation contributes to augmented IFN-gamma and lower IL-5 secretion and, consequently, to the Th1 bias. Cross-linking CD46 alone induced weak tyrosine phosphorylation of CD3zeta and ZAP-70. However, CD46 cross-linking by itself did not induce cell proliferation or lymphokine secretion, and pretreatment of CD4+ T lymphocytes with anti-CD46 antibodies did not significantly alter TCR/CD3 activation.     

T-cell receptor antagonist modifies cytokine secretion profile of naive CD4+ T cells and their differentiation into type-1 and type-2 helper T cells

A T-cell receptor (TCR) antagonist is an analog of a peptide ligand for TCR that inhibits T-cell responses to the original peptide. We investigated the effects of a TCR antagonist on cytokine secretion of naive CD4+ T cells and their differentiation into type-1 and type-2 helper T cells (Th1 and Th2) induced by stimulation with varying doses of an antigenic peptide. In the presence of a TCR antagonist peptide, proliferation of naive CD4+ T cells and antigen dose-dependent secretion of interferon-gamma, a typical Th1-type cytokine, by these cells was down-regulated. With respect to the secretion of interleukin-4 (IL-4), a typical Th2-type cytokine, the TCR antagonist raised the concentration of the antigenic peptide required to elicit maximal IL-4 production and, surprisingly, significantly increased the maximum level of IL-4 secretion. Similar effects induced by the TCR antagonist were observed on the Th1/Th2 differentiation of naive CD4+ T cells. These results clearly indicate that, for naive CD4+ T cells, a TCR antagonist has the potential to change the balance of Th1/Th2 cytokine secretion and even enhance Th2 responses.     

Notch1 expression on T cells is not required for CD4+ T helper differentiation

Notch1 proteins are involved in binary cell fate decisions. To determine the role of Notch1 in the differentiation of CD4(+) Th1 versus Th2 cells, we have compared T helper polarization in vitro in naive CD4(+) T cells isolated from mice in which the N1 gene is specifically inactivated in all mature T cells. Following activation, Notch1-deficient CD4(+) T cells transcribed and secreted IFN-gamma under Th1 conditions and IL-4 under Th2 conditions at levels similar to that of control CD4(+) T cells. These results show that Notch1 is dispensable for the development of Th1 and Th2 phenotypes in vitro. The requirement for Notch1 in Th1 differentiation in vivo was analyzed following inoculation of Leishmania major in mice with a T cell-specific inactivation of the Notch1 gene. Following infection, these mice controlled parasite growth at the site of infection and healed their lesions. The mice developed a protective Th1 immune response characterized by high levels of IFN-gamma mRNA and protein and low levels of IL-4 mRNA with no IL-4 protein in their lymph node cells. Taken together, these results indicate that Notch1 is not critically involved in CD4(+) T helper 1 differentiation and in resolution of lesions following infection with L. major.     

转录因子IRF8抑制Th17细胞分化并减轻T细胞免疫介导的小鼠结肠炎

 目的：转录因子干扰素调节因子（interferon regulatory factor, IRF）家族与Th17的发育密切相关,近年来发现Th17细胞在炎症性肠病的发病中发挥重要作用,本研究探讨IRF8对Th17发育及T细胞转染免疫介导的小鼠实验性肠炎的影响。方法：(1)采用流式细胞术分选野生型（WT）或IRF8全基因敲除(IRF8 -/-)小鼠脾脏和淋巴结的naive CD4 +T细胞(CD4 + CD62L +CD44 low),在Th1、Th2或Th17极化的条件下培养,采用流式细胞术检测Th1、Th2和Th17的比例。(2)建立实验性肠炎模型：采用免疫磁珠法分选WT或IRF8 -/-小鼠中的脾脏和淋巴结中CD4 +CD25 +Treg,WT小鼠的CD4 + CD45RB hi T细胞单独或者分别联合WT或IRF8 -/-小鼠的CD4 +CD25 +Treg腹腔注射给RAG1 -/-小鼠;WT或IRF8 -/-小鼠的naive CD4 + CD45RB hi T细胞腹腔注射给RAG1 -/-小鼠;观察上述小鼠每周体重的变化,第5周时处死小鼠,进行结肠炎病理评分和肠系膜淋巴结T淋巴细胞亚群检测。结果：(1)IRF8 -/-较WT的naive CD4 +T细胞在极化条件下向Th17细胞分化更明显(P<001),而对Th1和Th2细胞的分化无影响(P>0.05)。(2)CD4 + CD45RB hi T细胞转染给RAG1 -/-小鼠,IRF8 -/-较WT供体鼠引起的RAG1 -/-小鼠体重显著降低(P<0.05),结肠炎评分显著增高（P<0.05）,且肠系膜淋巴结中IL-17 +CD4 +细胞比例明显增高(P<0.01),而 IFN-γ +CD4 + 和 Foxp3 +CD4 +细胞比例无影响(P>0.05);IRF8 -/-小鼠的CD4 +CD25 +Treg对WT小鼠CD4 + CD45RB hi T细胞转染给RAG1 -/-小鼠诱发的免疫介导的结肠炎显示出正常的免疫抑制作用。结论：转录因子IRF8基因敲除促进CD4 +T细胞向Th17细胞分化,促进转染naive CD4 +T细胞诱导的实验性结肠炎的发生,IRF8基因敲除小鼠Treg细胞免疫抑制功能正常。     

Th2 cells shape the differentiation of developing T cell responses during interactions with dendritic cells in vivo

During priming, naive CD4(+) Th cells differentiate into cells that produce either IFN-gamma or IL-4. Even though the cascade of pathways that induces IL-4-producing Th2 cells has been determined in vitro, the signals promoting Th2 differentiation under physiological conditions remain enigmatic, especially the natural role of the single most important Th2-inducing signal,IL-4. Using Th2 and naive Th cells, each expressing a distinct transgenic TCR, here we show that Th2 cells migrate with the same dynamics as naive Th cells in draining lymph nodes and bind to the same DC, when driven by antigen in complete Freund's adjuvant (CFA). Th2-cell-derived IL-4 deviates CFA-induced Th1 development toward a Th2 phenotype, if both cell populations co-localize in the same T cell area, and are activated simultaneously. Thus, intranodal Th2 cells directly influence Th cell differentiation in vivo, but only under restricted conditions. These findings have implications for the design of cytokine-based therapies and explain the spreading of Th2 responses to multiple aeroallergens in allergic asthma, where naive Th and Th2 cells co-localize in lung-draining lymph nodes.     

Augmented induction of CD8+ cytotoxic T-cell response and antitumour resistance by T helper type 1-inducing peptide

The effector CD8(+) T cells recognize major histocompatibility complex (MHC) class I binding altered self-peptides expressed in tumour cells. Although the requirement for CD4(+) T helper type 1 (Th1) cells in regulating CD8(+) T cells has been documented, their target epitopes and functional impact in antitumour responses remain unclear. We examined whether a potent immunogenic peptide of Mycobacterium tuberculosis eliciting Th1 immunity contributes to the generation of CD8(+) T cells and to protective antitumour immune responses to unrelated tumour-specific antigens. Peptide-25, a major Th epitope of Ag85B from M. tuberculosis preferentially induced CD4(+) Th1 cells in C57BL/6 mice and had an augmenting effect on Th1 generation for coimmunized unrelated antigenic peptides. Coimmunization of mice with Peptide-25 and ovalbumin (OVA) or Peptide-25 and B16 melanoma peptide [tyrosinase-related protein-2 (TRP-2)] for MHC class I led to a profound increase in CD8(+) T cells specific for OVA and TRP-2 peptides, respectively. This heightened response depended on Peptide-25-specific CD4(+) T cells and interferon-gamma-producing T cells. In tumour protection assays, immunization with Peptide-25 and OVA resulted in the enhancement of CD8(+) cytotoxic cell generation specific for OVA and the growth inhibition of EL-4 thymoma expressing OVA peptide leading to the tumour rejection. These phenomena were not achieved by immunization with OVA alone. Peptide-25-reactive Th1 cells counteractivated dendritic cells in the presence of Peptide-25 leading them to activate and present OVA peptide to CD8(+) cytotoxic T cells.     

Differential regulation of Th1 responses and CD154 expression in human CD4+ T cells by IFN-alpha

Like interleukin (IL)-12, interferon (IFN)-alpha has been shown to play an important role in inducing human Th1 responses. Recent studies have shown that human Th1 responses driven by IL-12 are associated with enhanced expression of CD154. The present study examined the effects of IFN-alpha on CD154 expression in human CD4+ T cells, with special attention to the relationship with Th1 responses. Highly purified CD4+ T cells from healthy donors were stimulated with immobilized anti-CD3 with or without IFN-alpha and IL-12 in the complete absence of accessory cells. IFN-alpha suppressed CD154 protein and mRNA expression in CD4+ T cells at the initial phase of activation with immobilized anti-CD3, but enhanced it in the subsequent maturation phase irrespective of the presence of IL-12. By contrast, IFN-alpha by itself did not enhance IFN-gamma production or mRNA expression in CD4+ T cells in the absence of IL-12 even in the presence of stimulation with anti-CD28, but enhanced it in the presence of IL-12. Accordingly, IFN-alpha enhanced IL-12Rbeta2 mRNA expression in anti-CD3-stimulated CD4+ T cells. Neither IFN-alpha nor IL-12 influenced the stability of CD154 mRNA in anti-CD3-activated CD4+ T cells. These results indicate that IFN-alpha by itself enhances CD154 expression in CD4+ T cells independently of the induction of IFN-gamma mRNA expression. The data also suggest that the optimal induction of human Th1 responses by IFN-alpha might require the presence of IL-12 and that the induction of Th1 responses and CD154 expression in human CD4+ T cells might be regulated through different mechanisms.     

Signaling through Itk promotes T helper 2 differentiation via negative regulation of T-bet

The Tec family tyrosine kinase, Itk, is critical for PLC-gamma1 activation downstream of the TCR. Studies of Itk-/- mice have demonstrated a requirement for Itk in Th2 cytokine production and protective immunity to parasitic infections. Here we address the mechanism by which Itk regulates Th2 differentiation. We find that naive Itk-/- CD4+ T cells respond normally to cytokine skewing signals and can differentiate efficiently into either Th1 or Th2 lineage cells. In the absence of skewing cytokines, wild-type CD4+ T cells stimulated with low-avidity ligands preferentially express GATA-3 mRNA and differentiate into Th2 cells. Under these same stimulation conditions, Itk-/- T cells produce large amounts of T-bet mRNA and differentiate into IFN-gamma-producing cells. Furthermore, Itk is upregulated during Th2 differentiation, while Rlk, a related Tec kinase, disappears rapidly from differentiating Th2 cells. Together, these findings provide a molecular explanation for the essential role of Itk in Th2 differentiation.     

Naive human T cells can be a source of IL-4 during primary immune responses

IL-4 plays a key role in driving the differentiation of CD4+ Th precursors into Th2 cells, both in mice and in humans. The source of IL-4 during primary immune responses is, however, still debated. When IL-4 consumption in in vitro T cell cultures was blocked with a MoAb to the IL-4 receptor alpha-chain (IL-4Ralpha), it became evident that freshly isolated naive (CD45RO-) CD4+ T cells from adults or cord blood produce IL-4 upon activation with anti-CD3 and CD80. IL-4 production by naive T cells is strictly IL-2-dependent. Endogenous IL-4 activity in naive CD4+ T cell cultures modulates the production of interferon-gamma (IFN-gamma) on the one hand and IL-5 and IL-13 on the other hand in opposite directions, and it is partly responsible for the low IFN-gamma production by cord blood T cells. Comparison of the ratio of IL-4/IFN-gamma in supernatants of T cell cultures reveals a skewing towards IL-4 production by cord blood T cells, while naive T cells from (non-atopic) adults predominantly produce IFN-gamma. We conclude that CD4+ naive T cells can produce IL-4 without the need for Th2 differentiation, and therefore that they can be the initial source of IL-4 required at the time of priming for T cell differentiation into Th2 cells.     

Kinetics and expression patterns of chemokine receptors in human CD4+ T lymphocytes primed by myeloid or plasmacytoid dendritic cells

We investigated the kinetics of expression of 12 chemoattractant receptors as a function of cell division following priming of human naive CD4+ T cells by different populations of dendritic cells (DC) and under conditions favoring Th1 or Th2 differentiation. Two chemokine receptors, CXCR3 and CXCR5, were rapidly up-regulated following T cell activation by either monocyte-derived DC, myeloid DC (mDC) or plasmacytoid DC (pDC). While CXCR5 expression was transient, expression of CXCR3 at advanced cell divisions was dependent on differentiation, being expressed at high levels on Th1 cells. Several other receptors (CCR2, CCR3, CCR4, CCR5, CXCR6 and CRTh2) were acquired progressively as a function of cell division and in a fashion that was influenced by polarizing cytokines. The Th2-associated chemoattractant receptors CRTh2 and CCR3 were up-regulated with slower kinetics compared to the Th1-associated receptors CXCR3 and CXCR6, consistent with a different kinetics and efficiency of polarization. Moreover, CCR4 and CXCR6 were preferentially induced in T cells activated by mDC and pDC, respectively. Finally, CXCR5 and CCR7 were also rapidly and transiently up-regulated in memory T cells following TCR stimulation. These results indicate a complex chemokine receptor regulation dependent on both T cell activation and differentiation state. In addition, they reveal the existence of DC-specific cues for the regulation of T cell migratory capacity.