Role of NKT cells in anterior chamber-associated immune deviation

Cells in the eye have a limited capacity for regeneration and, as such, immune-mediated inflammation can lead to blindness. The eye is designed to quench immune-mediated inflammation – a condition known as immune privilege. An important component of immune privilege is the dynamic immunoregulatory process termed anterior chamber-associated immune deviation (ACAID), which is initiated when antigens enter the eye. ACAID suppresses the initiation of antigen-specific inflammation in the eye and the effector stages of immune reactions. Four organ systems are crucial for the induction of ACAID: the eye, thymus, spleen and sympathetic nervous system. Multiple cell populations contribute to ACAID, with natural killer T cells playing a crucial role in the thymic and splenic phases of ACAID. Interactions between natural killer T cells and multiple cell populations in the spleen culminate in the tight regulation of immune-mediated inflammation in the eye and the preservation of vision.     

Anterior chamber inoculation of splenocytes without Fas/Fas-ligand interaction primes for a delayed-type hypersensitivity response rather than inducing anterior chamber-associated immune deviation

The inoculation of antigens into the anterior chamber (AC) of the eye induces an antigen-specific immune response that inhibits delayed-type hypersensitivity (DTH). This regulatory response is known as anterior chamber-associated immune deviation (ACAID). The ACAID response appears to be complex, as it can be elicited by a wide variety of soluble and cell-associated antigens, including foreign, self, tumor, and alloantigens. To evaluate the contribution of Fas/Fas ligand (FasL) interaction to the induction of ACAID to alloantigens, gld and lpr mutant mice were used in conjunction with normal C3H, MRL, and BALB/c mice. ACAID was induced by inoculation of non-irradiated splenocytes from donor mice into the AC of various recipients. After 1 week, recipients were primed intradermally with donor splenocytes. One week later DTH was measured by ear swelling. C3Hgld mutants lacking functional FasL did not develop ACAID after the AC inoculation of BALB/c splenocytes. Conversely, the AC inoculation sensitized these mutants. MRLlpr mutants, which lack Fas, developed ACAID following inoculation of BALB/c cells. AC inoculation of lpr splenocytes did not induce ACAID, but sensitized C3H recipients. Treatment of the AC inoculum with an anti-Fas antibody blocked ACAID induction in a transient manner, as the recipients developed ACAID later. These results show that interaction of the Fas and FasL is required to induce ACAID to allogeneic cells. In the absence of Fas expression on donor splenocytes, or FasL expression by the recipient, AC inoculation primes for a DTH response rather than inducing ACAID.     

Thymocytes induced by antigen injection into the anterior chamber activate splenic CD8+ suppressor cells and enhance the antigen-induced production of immunoglobulin G1 antibodies

Injection of antigen into the ocular anterior chamber (AC) of a mouse eye (an immunologically privileged site) induces the activation of immunoregulatory NK1.1+, CD4- CD8-, T-cell receptor (TCR) alphabeta+ thymocytes. These thymocytes transfer the suppression of delayed-type hypersensitivity (DTH) when injected into mice sensitized to the same antigen but do not effect the suppression of DTH. On the other hand, the immunized recipients of these transferred thymocytes produce splenic CD8+ T cells that effect the suppression of DTH. However, it is unclear whether the thymocytes transferred from the AC-injected donor differentiate into and/or activate CD8+ T-splenic suppressor cells. We therefore sought to determine the origin of splenic suppressor cells produced in the recipients of immunoregulatory thymocytes transferred from donors that receive an injection of antigen into the AC. CD45.1+ thymocytes from mice that received an AC injection of 2,4,6-trinitrobenzene sulphonic acid (TNP)-bovine serum albumin (BSA) were transferred to congenic CD45.2+ TNP-BSA-immune recipients. Spleen cells from the recipients were then sorted based on anti-CD45.1 or -CD45.2 antibody binding and assayed for suppressor cells. This was done by the injection of separated spleen cells into the footpad of TNP-BSA-immunized mice, concurrent with the induction of footpad swelling (contact sensitivity) of the footpad elicited by an epicutaneous application of picryl chloride. The systemic distribution of antigen after the injection of antigen into the AC was demonstrated by the injection of fluorescein or 125I-labelled TNP-BSA into the AC. The results demonstrate that (i) splenic CD8+ T-suppressor cells produced in the immunized recipients of immunoregulatory thymocytes are derived from the CD45.2 recipient of the CD45.1+ thymocytes; (ii) the induction of recipient splenic suppressor T cells by the transferred immunoregulatory thymocytes requires that the recipient be immunized to the same antigen as that used to induce immunoregulatory thymocytes; (iii) antigen is introduced to the thymus after an injection of antigen into the AC; (iv) although the transfer of the suppression of DTH by regulatory thymocytes was not dependent on interleukin-4 (IL-4), CD4+ NK1.1- regulatory thymocytes from AC-injected donors enhanced the production of immunoglobulin G1 antibodies to TNP-BSA by an IL-4-dependent mechanism. These observations suggest that the adult thymus plays an active role in the induction and maintenance of anterior chamber-associated immune deviation as manifested by the generation of the suppression of cell-mediated immunity to exogenous antigen and the antigen-induced production of IgG1 antibodies.     

CD28/CTLA-4 and CD80/CD86 families

T cell stimulation in the absence of a second, costimulatory signal can lead to anergy or the induction of cell death. CD28 is a major T cell costimulatory receptor, the coengagement of which can prevent anergy and cell death. The CD28 receptor is a member of a complex family of polypeptides that includes at least two receptors and two ligands. Cytotoxic lymphocyte-associated molecule-4 (CTLA-4, CD152) is the second member of the CD28 receptor family. The ligands or counterreceptors for these two proteins are the B7 family members, CD80 (B7-1) and CD86 (B7-2). This article reviews the CD28/CTLA4 and CD80/CD86 families, and outlines the functional outcomes and biochemical signaling pathways recruited after CD28 ligation.     

Importance of CD80/CD86-CD28 interactions in the recognition of target cells by CD8+CD122+ regulatory T cells

CD8+CD122+ regulatory T cells are a newly identified, naturally occurring type of regulatory T cell that produce interleukin-10 (IL-10) and effectively suppress interferon-gamma (IFN-gamma) production from both CD8+ and CD4+ target cells. Molecular mechanisms responsible for the recognition of target cells by CD8+CD122+ regulatory T cells were investigated in this study by using an in vitro culture system that reconstitutes the regulatory action of these cells. CD8+CD122( regulatory T cells did not produce IL-10 and did not suppress the IFN-gamma production of allogeneic target T cells when they were stimulated by immobilized anti-CD3 antibody alone, but they clearly produced IL-10 and suppressed the IFN-gamma production of target cells when stimulated by anti-CD3 plus anti-CD28-coated beads. IFN-gamma production by major histocompatibility complex-class I-deficient T cells was also suppressed by CD8+CD122+ regulatory T cells stimulated with anti-CD3 plus anti-CD28 antibody but was not suppressed by cells stimulated by anti-CD3 alone. Experiments examining the blockade of cell surface molecules expressed on either the regulatory cells or the target cells by adding specific neutralizing antibodies in the culture indicated that CD80, CD86, and CD28 molecules were involved in the regulatory action, but cytotoxic T lymphocyte antigen-4, inducible costimulatory molecule (ICOS) and programmed death-1 (PD-1) molecules were not. Finally, CD8+CD122+ cells isolated from CD28-knockout (CD28-/-) mice showed no regulatory activity. These results indicate that CD8+CD122(+) regulatory T cells recognize target T cells via the interaction of CD80/CD86-CD28 molecules to become active regulatory cells that produce suppressive factors such as IL-10.     

Normal human pregnancy is associated with an elevation in the immune suppressive CD25+ CD4+ regulatory T-cell subset

Summary CD4+ CD25+ T regulatory cells (TReg), suppress antigen-specific immune responses and are important for allograft tolerance. During pregnancy the mother tolerates an allograft expressing paternal antigens (the fetus) requiring substantial changes in immune regulation over a programmed period of time. We analysed whether immune-suppressive TReg cells were altered during pregnancy and therefore might play a part in this tolerant state. The presence of TReg cells was assessed in the blood of 25 non-pregnant, 63 pregnant and seven postnatal healthy women by flow cytometry. We observed an increase in circulating TReg cells during early pregnancy, peaking during the second trimester and then a decline postpartum. Isolated CD25+ CD4+ cells expressed FoxP3 messenger RNA, a marker of TReg cells, and suppressed proliferative responses of autologous CD4+ CD25- T cells to allogeneic dendritic cells. These data support the concept that normal pregnancy is associated with an elevation in the number of TReg cells which may be important in maintaining materno-fetal tolerance.     

Role of CD4+ regulatory T cells in hyperbaric oxygen-mediated immune nonresponsiveness

We have previously shown that hyperbaric oxygen culture (HOC [95% O₂, 5% CO₂, 25 psi]) is an effective pretransplant tissue-modification technique that results in long-term allograft survival and the induction of systemic immune tolerance in a murine model. Here we address the immune modulatory effects of HOC-treatment of human immune responses using the in vitro mixed lymphocyte reaction (MLR). Pretreatment of allogeneic stimulator cells with HOC results in abrogation of cytotoxic T lymphocyte (CTL) activity, proliferative responses, and IFNγ production in a 7-day MLR. These responses can be restored either by the addition of IFNγ or IL-2 on day 0, or by blocking the activity of IL-4 and IL-10. The addition of IL-2 on day 4 does not restore allospecific CTL activity. The failure of HOC-treated cells to induce allospecific CTL is not due to the induction of anergy, demonstrated by the failure to restore responses after restimulation with allogeneic cells in the presence of IL-2. Removal of CD4⁺ cells prior to restimulation, results in restoration of CTL activity in MLR cultures restimulated with HOC-treated allogeneic cells. These results suggest that HOC-induced immune nonresponsiveness is mediated by the development of CD4⁺ regulatory cells in a Th2-type environment.     

The costimulatory molecules CD80, CD86 and OX40L are up-regulated in Aspergillus fumigatus sensitized mice

Aspergillus fumigatus (Af) is a fungus associated with allergic bronchopulmonary aspergillosis (ABPA) and other allergic diseases. Immune responses in these diseases are due to T and B cell responses. T cell activation requires both Af-specific engagement of the T-cell-receptor as well as interaction of antigen independent costimulatory molecules including CD28-CD80/CD86 and OX40-OX40L interactions. Since these molecules and their interactions have been suggested to have a potential involvement in the pathogenesis of ABPA, we have investigated their role in a model of experimental allergic aspergillosis. BALB/c mice were primed and sensitized with Af allergens, with or without exogenous IL-4. Results showed up-regulation of both CD86 and CD80 molecules on lung B cells from Af-sensitized mice (79% CD86+ and 24% CD80+) and Af/rIL-4-treated mice (90% CD86+ and 24% CD80+) compared to normal controls (36% and 17%, respectively). Lung macrophages in Af-sensitized mice treated or not with IL-4 showed enhanced expression of these molecules. OX40L expression was also up-regulated on lung B cells and macrophages from both Af-sensitized and Af/rIL-4 exposed mice as compared to normal controls. All Af-sensitized animals showed peripheral blood eosinophilia, enhanced total serum IgE and allergen-specific IgG1 antibodies and characteristic lung inflammation. The up-regulation of CD80, CD86 and OX40L molecules on lung B cells and macrophages from Af-allergen exposed mice suggests a major role for these molecules in the amplification and persistence of immunological and inflammatory responses in ABPA.     

Mechanisms of induction of regulatory B cells in the tumour microenvironment and their contribution to immunosuppression and pro-tumour responses

The presence of tumour-infiltrating immune cells was originally associated with the induction of anti-tumour responses and good a prognosis. A more refined characterization of the tumour microenvironment has challenged this original idea and evidence now exists pointing to a critical role for immune cells in the modulation of anti-tumour responses and the induction of a tolerant pro-tumour environment. The coordinated action of diverse immunosuppressive populations, both innate and adaptive, shapes a variety of pro-tumour responses leading to tumour progression and metastasis. Regulatory B cells have emerged as critical modulators and suppressors of anti-tumour responses. As reported in autoimmunity and infection studies, Bregs are a heterogeneous population with diverse phenotypes and different mechanisms of action. Here we review recent studies on Bregs from animal models and patients, covering a variety of types of cancer. We describe the heterogeneity of Bregs, the cellular interactions they make with other immune cells and the tumour itself, and their mechanism of suppression that enables tumour escape. We also discuss the potential therapeutic tools that may inhibit Bregs function and promote anti-tumour responses.     

人LIGHT基因转染细胞株的建立及其对T细胞协同刺激作用的研究

建立人协同刺激分子LIGHT的基因转染细胞株,探讨其体外对T细胞活化与增殖的协同刺激作用。采用RT-PCR法从活化的人外周血T细胞中克隆人LIGHT编码区全长基因,经EcoR I和BamH I双酶切后插入pIRES2-EGFP真核表达载体构建成pIRES2-EGFP-LIGHT重组子,脂质体法以重组质粒pIRES2-EGFP-LIGHT转染鼠L929细胞。经G418长期加压筛选,免疫荧光标记和流式细胞术分析LIGHT分子在基因转染的L929细胞膜上的表达,MTT法和酶联免疫吸附测定法(ELISA)探讨获得的基因转染细胞L929/LIGHT体外对T淋巴细胞增殖与活化的影响。结果:流式细胞术检测转基因L929/LIGHT细胞膜上能稳定高表达人LIGHT分子。体外细胞共培养试验表明,与未转染LIGHT基因的L929/mock细胞相比,L929/LIGHT能显著地促进抗人CD3单抗(mAb)刺激的T细胞增殖;同时L929/LIGHT亦能明显促进T细胞对IL-2、IFN-γ和IL-10的分泌。建立了稳定高表达人LIGHT分子的基因转染细胞株,LIGHT介导的信号在体外对T细胞增殖和相关细胞因子的分泌具有显著地促进作用。     

Critical contribution of CD28-CD80/CD86 costimulatory pathway to protection from Trypanosoma cruzi infection

The CD28-CD80/CD86-mediated T-cell costimulatory pathway has been variably implicated in infectious immunity. In this study, we investigated the role of this costimulatory pathway in resistance to Trypanosoma cruzi infection by using CD28-deficient mice and blocking antibodies against CD80 and CD86. CD28-deficient mice exhibited markedly exacerbated T. cruzi infection, as evidenced by unrelenting parasitemia and 100% mortality after infection with doses that are nonlethal in wild-type mice. The blockade of both CD80 and CD86 by administering specific monoclonal antibodies also exacerbated T. cruzi infection in wild-type mice. Splenocytes from T. cruzi-infected, CD28-deficient mice exhibited greatly impaired gamma interferon production in response to T. cruzi antigen stimulation in vitro compared to those from infected wild-type mice. The induction of T. cruzi antigen-specific CD8(+) T cells was also impaired in T. cruzi-infected, CD28-deficient mice. In addition to these defects in natural protection against T. cruzi infection, CD28-deficient mice were also defective in the induction of CD8(+)-T-cell-mediated protective immunity against T. cruzi infection by DNA vaccination. These results demonstrate, for the first time, a critical contribution of the CD28-CD80/CD86 costimulatory pathway not only to natural protection against primary T. cruzi infection but also to DNA vaccine-induced protective immunity to Chagas' disease.     

Increased resistance to CD4+CD25hi regulatory T cell‐mediated suppression in patients with type 1 diabetes

Type I diabetes (T1D) is a T cell‐mediated autoimmune disease characterized by loss of tolerance to islet autoantigens, leading to the destruction of insulin‐producing beta cells. Peripheral tolerance to self is maintained in health through several regulatory mechanisms, including a population of CD4⁺CD25^hi naturally occurring regulatory T cells (T_regs), defects in which could contribute to loss of self‐tolerance in patients with T1D. We have reported previously that near to T1D onset, patients demonstrate a reduced level of suppression by CD4⁺CD25^hi T_regs of autologous CD4⁺CD25^‐ responder cells. Here we demonstrate that this defective regulation is also present in subjects with long‐standing T1D (> 3 years duration; P = 0·009). No difference was observed in forkhead box P3 or CD127 expression on CD4⁺CD25^hi T cells in patients with T1D that could account for this loss of suppression. Cross‐over co‐culture assays demonstrate a relative resistance to CD4⁺CD25^hi T_reg‐mediated suppression within the CD4⁺CD25^‐ T cells in all patients tested (P = 0·002), while there appears to be heterogeneity in the functional ability of CD4⁺CD25^hi T_regs from patients. In conclusion, this work demonstrates that defective regulation is a feature of T1D regardless of disease duration and that an impaired ability of responder T cells to be suppressed contributes to this defect.     

免疫耐受机制研究进展

免疫耐受是机体免疫系统在接触某种抗原后所产生的对该抗原特异性免疫无应答状态,是免疫应答的一种特殊形式,免疫应答的复杂性决定了免疫耐受诱导的复杂性和困难性.随着免疫学的发展,人们对免疫耐受产生机制有了较多的认识.本文对免疫耐受与细胞凋亡、调节性T细胞及树突状细胞的研究进展进行综述.     

The immune responses of central and effector memory BCG-specific CD4 T cells in BCG-vaccinated PPD donors were modulated by Treg cells

Most of the studies evaluating the function of tuberculosis (TB)-specific T cells were only based on the ability to produce cytokines, which may not fully reflect the function of T cells. In the present study, we confirmed that Bacille Calmette Guerin (BCG) could significantly induce cytokine production by CD4⁺ T cells from BCG-vaccinated PPD⁺ donors. In addition, CD4⁺ T cells were activated, divided and proliferated in response to BCG stimulation. Phenotypic analysis showed that IFN-γ⁺CD4⁺ T cells displayed CD45RA⁻CCR7^+/−CD62L⁻, indicating that these CD4⁺ T cells were central and effector memory cells. The analysis of cytokine profiles demonstrated that most of BCG-specific BrdU⁺CD4⁺ T cells produced Th1 cytokines in response to polyclonal stimulation. In addition, we found that regulatory T cells (Treg) suppressed BCG-induced proliferation and IFN-γ production by memory CD4⁺ T cells. The suppressive effects of Treg on BCG-specific responses of CD4⁺ T cells could be partially reversed by blocking the production of IL-10. Taken together, our results demonstrated that functional central and effector memory BCG-specific CD4⁺ T cells could be detected based on the activation, proliferation and division of these cells, and modulated by Treg in PBMCs from BCG-vaccinated PPD⁺ donors.     

T-cell-based immunotherapy in multiple sclerosis: induction of regulatory immune networks by T-cell vaccination

Multiple sclerosis (MS) is a chronic inflammatory disease of the CNS with presumed autoimmune origin. Pathogenic autoimmune responses in MS are thought to be the result of a breakdown of self tolerance. Several mechanisms account for the natural state of immunological tolerance to self antigens, including clonal deletion of self-reactive T cells in the thymus. However, autoimmune T cells are also part of the normal T-cell repertoire, supporting the existence of peripheral regulatory mechanisms that keep these potentially pathogenic T cells under control. One such mechanism involves active suppression by regulatory T cells. It has been indicated that regulatory T cells do not function properly in autoimmune disease. Immunization with attenuated autoreactive T cells, T-cell vaccination, may enhance or restore the regulatory immune networks to specifically suppress autoreactive T cells, as shown in experimental autoimmune encephalomyelitis, an animal model for MS. In the past decade, T-cell vaccination has been tested for MS in several clinical trials. This review summarizes these clinical trials and updates our current knowledge on the induction of regulatory immune networks by T cell vaccination.     

Involvement of CD70 and CD80 intracytoplasmic domains in the co-stimulatory signal required to provide an antitumor immune response

CD70 and CD80 are co-stimulatory molecules which belong to the tumor necrosis factor family and the B7 family respectively. When they are co-expressed by gene-modified TS/A tumor cells, they provide an efficient protective and long-lasting T-dependent antitumor response. We first showed that when CD70 and CD80 were delivered in the tumor environment by gene-modified fibroblasts, but were not expressed by the tumor cells themselves, no antitumor response was observed. We next assessed whether the intracytoplasmic domains of CD70 and CD80 contribute to enhance the co-stimulatory activity necessary to induce effective T cell-tumor cell interactions and T cell-dependent antitumor response. TS/A cells were gene-modified to express different combinations of deleted (CD70Delta and CD80Delta) or full-length CD70 and CD80 co-stimulatory molecules. In vitro, the CD80 intracytoplasmic domain was required to regulate CD80 membrane redistribution by interacting with the actin cytoskeleton. The loss of the CD70 intracytoplasmic domain did not alter its ability to relocate on the surface membrane, but failed to co-stimulate T cell proliferation. In vivo experiments in syngeneic BALB/c mice showed that the CD70/CD80-TS/A and the CD70Delta/CD80-TS/A tumors were rejected via CD8 T cells, whereas CD70/CD80Delta-TS/A and CD70Delta/CD80Delta-TS/A tumors were not. The mice that rejected CD70Delta/CD80-TS/A tumors showed decreased protection against injection of parental TS/A cells when compared to mice which rejected CD70/CD80-TS/A tumors. These results showed that the intracytoplasmic domain of CD80 was critical for the effector phase of CD8 T cell-dependent tumor rejection and that the CD70 intracytoplasmic domain could mediate proliferative or surviving signals required for optimal effector/memory CD8 T cell generation.     

CD80 and CD86 polymorphisms in populations of various ancestries: 5 new CD80 promoter alleles

CD80 and CD86 are closely linked genes on chromosome 3 that code for glycoproteins of the immunoglobulin superfamily, expressed on the surface of antigen-presenting cells. These costimulatory molecules play essential roles for stimulation and inhibition of T cells through binding to CD28 and CTLA-4 receptors. In this study, CD80 promoter and CD86 exon 8 polymorphisms were analyzed to investigate the genetic diversity and microevolution of the 2 genes. We genotyped 1,124 individuals, including Brazilians of predominantly European, mixed African and European, and Japanese ancestry, 5 Amerindian populations, and an African sample. All variants were observed in Africans, which suggests their origin in Africa before the human migrations out of that continent. Five new CD80 promoter alleles were identified and confirmed by cloning and sequencing, and promoter 2 is most likely the ancestral allele. Nucleotide -79 is monomorphic in 4 Amerindian populations, where the presence of the -79 G allele is probably the result of gene flow from non-Amerindians.     

CD4+ CD25+ regulatory T cells in human pregnancy: development of a Treg-MLC-ELISPOT suppression assay and indications of paternal specific Tregs

The current study was aimed at developing a one-way mixed leucocyte culture-enzyme-linked immunospot (MLC-ELISPOT) assay for the study of CD4(+) CD25(+) regulatory T (T(reg)) cells and applying this method in the study of antifetal immune reactions during human pregnancy. Twenty-one pregnant women and the corresponding fathers-to-be, and 10 non-pregnant control women and men, participated in the study. CD4(+) CD25(+) cells were isolated from peripheral blood mononuclear cells (PBMC) by immunomagnetic selection. Maternal/control PBMC were stimulated with paternal or unrelated PBMC in MLC. Secretion of interleukin-4 (IL-4) and interferon-gamma (IFN-gamma) from responder cells, with or without the presence of autologous T(reg) cells, was analysed by ELISPOT. PBMC from pregnant women showed increased secretion of IL-4 compared to controls. In pregnant and non-pregnant controls, T(reg) cells suppressed IFN-gamma reactivity against paternal and unrelated alloantigens. Interestingly, T(reg) cells suppressed IL-4 secretion against paternal but not unrelated alloantigens during pregnancy. We have successfully developed a model for studying T(reg) cells in antifetal cytokine reactions during pregnancy. Results indicate that T(reg) cells contribute to strict regulation of both T helper type 1-like and type 2-like antifetal immune reactions. Interestingly, T helper type 2-like cells specific to unrelated alloantigens are able to escape the suppression of T(reg) cells, which would allow for IL-4, alongside CD4(+) CD25(+) T(reg) cells, to control potentially detrimental IFN-gamma reactions during pregnancy.     

CD80 and CD86 IgC domains are important for quaternary structure,receptor binding and co-signaling function

CD86 and CD80, the ligands for the co-stimulatory molecules CD28 and CTLA-4, are members of the Ig superfamily. Their structure includes Ig variable-like (IgV) domains, Ig constant-like (IgC) domains and intracellular domains. Although crystallographic studies have clearly identified the IgV domain to be responsible for receptor interactions, earlier studies suggested that both Ig domains are required for full co-signaling function. Herein, we have used deletion and chimeric human CD80 and CD86 molecules in co-stimulation assays to study the impact of the multimeric state of IgV and IgC domains on receptor binding properties and on co-stimulatory function in a peptide-specific T cell activation model. We report for the first time the presence of CD80 dimers and CD86 monomers in living cells. Moreover, we show that the IgC domain of both molecules inhibits multimer formation and greatly affects binding to the co-receptors CD28 and CTLA-4. Finally, both IgC and intracellular domains are required for full co-signaling function. These findings reveal the distinct but complementary roles of CD80 and CD86 IgV and IgC domains in T cell activation.     

Modulation of immune responses through direct activation of Toll‐like receptors to T cells

Toll‐like receptors (TLRs), which are a family of pattern recognition receptors (PRRs), are involved critically in the generation and regulation of innate immunity as well as initiation of subsequent adaptive immune responses. However, recent research results showed that different subsets of T cells express certain types of TLRs during development and activation stages. Importantly, TLRs participate in the direct regulation of adaptive immune response, possibly as co‐stimulatory molecules. In this review we summarize recent studies about the novel regulation of TLRs on the homeostasis and immunity of different T cell subtypes including CD4⁺CD25⁺T regulatory cells (T_reg) and interleukin (IL)‐17‐producing CD4⁺T cells (T helper type 17). The direct involvement of TLRs in T cell‐mediated immunity prompted us to reconsider the role of TLRs in the occurrence of autoimmune diseases, infectious diseases and graft rejection. The important effects of TLRs in T cell‐intrinsic components also prompt us to explore novel vaccine adjuvants for modifying desired immune responses in an efficient way.