CD8~+ T细胞在早期内毒素血症对心功能的损害作用

目的:探讨CD8+T细胞在早期内毒素血症心脏损伤中的浸润及其对心功能的影响。方法:野生雄性小鼠20只随机分为野生对照组和野生内毒素血症组,每组各10只;CD8敲除雄性小鼠10只,随机分为CD8敲除对照组和CD8敲除内毒素血症组,每组各5只。对照组均给予0.9%氯化钠液腹腔注射,内毒素血症组均给予脂多糖腹腔注射。6 h显微超声检测射血分数及短轴缩短分数;即刻处死并收取野生对照组及野生内毒素血症组各3只小鼠心脏组织,流式细胞技术检测心脏细胞悬液中巨噬细胞(F4/80+细胞)及CD8+T细胞、CD4+T细胞分布;其余小鼠心脏组织进行病理切片HE染色,观察心肌纤维断裂及炎症细胞浸润。结果:与野生对照组相比,野生内毒素血症组射血分数及短轴缩短分数显著降低(均为P<0.05);野生内毒素血症组F4/80+细胞、CD4+T细胞及CD8+T细胞均显著增加(均为P<0.05)。与野生内毒素血症组相比,CD8基因敲除内毒素血症组射血分数及短轴缩短分数均显著升高(均为P<0.05)。结论:急性内毒素血症导致心肌纤维损伤、心功能不全,心脏组织CD8+T等炎症细胞浸润;而缺乏CD8+T细胞时则减轻内毒素血症导致的心功能损伤,提示CD8+T细胞在急性内毒素血症诱导的心功能不全早期发挥重要作用。     

Vasoactive intestinal peptide induces CD4+,CD25+ T regulatory cells with therapeutic effect in collagen-induced arthritis

OBJECTIVE: CD4+,CD25+ T regulatory cells (Treg) control the immune response to a variety of antigens, including self antigens, and may offer opportunities to intervene in the course of autoimmune diseases. Several models support the idea of the peripheral generation of CD4+,CD25+ Treg from CD4+,CD25- T cells, but little is known about the endogenous factors and mechanisms controlling the peripheral expansion of CD4+,CD25+ Treg. We undertook this study to investigate the capacity of the vasoactive intestinal peptide (VIP), an immunosuppressive antiarthritic neuropeptide, to induce functional Treg in vivo during the development of collagen-induced arthritis (CIA). METHODS: We measured the number of CD4+,CD25+ Treg following VIP administration to CIA mice, and we characterized their phenotype and their ability to suppress activation of autoreactive T cells. We determined the capacity of VIP to induce Treg in vitro as well as the use of Treg in the treatment of CIA, measuring the clinical evolution and the inflammatory and autoimmune components of the disease. RESULTS: The administration of VIP to arthritic mice resulted in the expansion of CD4+,CD25+,Foxp3+ Treg in the periphery and joints, which inhibited autoreactive T cell activation/expansion. VIP induced more efficient suppressors on a per-cell basis. The VIP-generated CD4+,CD25+ Treg transfer suppressed and significantly ameliorated the progression of the disease. CONCLUSION: These results demonstrate the involvement of the generation of Treg in the therapeutic effect of VIP on CIA. The generation of highly efficient Treg by VIP ex vivo could be used as an attractive therapeutic tool in the future, avoiding the administration of the peptide to patients with rheumatoid arthritis.     

Prevention of spontaneous arthritis by inhibiting homeostatic expansion of autoreactive CD4+ T cells in the K/BxN mouse model

OBJECTIVE: K/BxN-transgenic mice are a model of autoimmune arthritis, similar to rheumatoid arthritis. This study was undertaken to determine whether inhibition of lymphopenia-provoked homeostatic expansion can prevent spontaneous development of disease in the K/BxN model. METHODS: To inhibit homeostatic expansion of autoreactive T cells, K/BxN mice with disease in the preclinical stage were adoptively transferred with CD4+ T cells purified from nontransgenic BxN or Thy1.1+ BxN mice. To observe the profile of proliferation of CD4+ T cells derived from the hosts, carboxyfluorescein diacetate succinimidyl ester-labeled autologous CD4+ T cells were cotransferred to K/BxN mice together with BxN CD4+ T cells. Disease onset and progression were scored, and the dynamics and phenotypes of recipient CD4+ T cells were determined by flow cytometry, before and after cell infusion. RESULTS: During the preclinical phase of disease, K/BxN mice exhibited CD4+ T lymphopenia, which was followed by a compensatory expansion of these cells during the early clinical phase. The majority of CD4+ T cells acquired a memory phenotype (CD44(high),CD62L(low),CD25-), which is a hallmark of homeostatically expanding cells. Importantly, K/BxN mice subjected to syngeneic T cell transfer did not develop symptoms of arthritis and also possessed fewer transgenic T cell receptor-encoded Vbeta6+,CD4+ T cells. This effect was associated with decreased proliferation of recipient-derived CD4+ T cells but not with the function of CD25+ T regulatory cells present in donor cells. CONCLUSION: These results provide the first evidence that lymphopenia-associated homeostatic proliferation of autoreactive CD4+ T cells potentiates autoimmune arthritis, and that inhibition of this process protects mice from the development of this pathologic condition.     

扩张型心肌病患者CD4~+CD25~+Foxp3~+ T细胞的检测及意义

目的:探讨扩张型心肌病(DCM)患者外周血CD4+CD25+Foxp3+T细胞的水平及意义。方法:采用流式细胞术检测DCM患者30例及健康对照组20例外周血CD4+CD25+T细胞和CD4+CD25+Foxp3+T细胞的比例。结果:DCM患者外周血CD4+CD25+T细胞占CD4+T细胞的比例为(8.53±1.64)%,显著低于健康对照组的(11.4±2.17)%,P0.01;DCM患者CD4+CD25+Foxp3+T细胞占CD4+T细胞比例为(0.99±0.54)%,显著低于健康对照组的(1.55±0.55)%,P0.01;且DCM患者心功能越差,CD4+CD25+Foxp3+T细胞占CD4+T细胞的比例越低。结论:DCM患者调节性T细胞比例的减少,可能打破了自身免疫耐受,发生了针对心肌抗原的自身免疫反应,参与了DCM的发病。     

Spontaneous myocarditis mimicking human disease occurs in the presence of an appropriate MHC and non-MHC background in transgenic mice

Most individuals have viral infections at some point in their life, however, only few develop autoreactivity to cardiac myosin following infection resulting in myocarditis suggesting a genetic predisposition. Most mouse models of myocarditis are induced by viral infection or by immunization with cardiac myosin. We generated HLA-DR3.Abetao and HLA-DQ8.Abetao transgenic mice in NOD and HLA-DQ8.Abetao in B10 background to study spontaneous autoimmunity. A high mortality was observed in NOD.DQ8 female mice 16 weeks or older. Echocardiography showed marked systolic dysfunction. Histopathology of various organs revealed an enlarged heart with mononuclear infiltrate consisting of CD4 and Mac-1+ cells and myocyte necrosis. The autoimmunity was associated with the presence of spontaneous autoreactive T cells and antibodies to cardiac myosin. Serologically, mice were negative for all known mouse viruses. NOD.DR3.Abetao, the transgene negative littermates, NOD, and B10.DQ8 Abetao mice had no gross or microscopic cardiac pathology. Spontaneous cellular and humoral response to cardiac myosin suggests that NOD.DQ8 may harbor autoreactive cells that can lead to spontaneous myocarditis and dilated cardiomyopathy. HLA-DQ8 is required for the predisposition to the spontaneous autoreactivity while NOD background influences onset and progression of disease. This model of myocarditis occurs predominantly in female mice and may provide insight into the pathogenesis of heart disease in women.     

Vasoactive intestinal peptide induces CD4+,CD25+ T regulatory cells with therapeutic effect in collagen‐induced arthritis

Objective

CD4+,CD25+ T regulatory cells (Treg) control the immune response to a variety of antigens, including self antigens, and may offer opportunities to intervene in the course of autoimmune diseases. Several models support the idea of the peripheral generation of CD4+,CD25+ Treg from CD4+,CD25− T cells, but little is known about the endogenous factors and mechanisms controlling the peripheral expansion of CD4+,CD25+ Treg. We undertook this study to investigate the capacity of the vasoactive intestinal peptide (VIP), an immunosuppressive antiarthritic neuropeptide, to induce functional Treg in vivo during the development of collagen‐induced arthritis (CIA).

Methods

We measured the number of CD4+,CD25+ Treg following VIP administration to CIA mice, and we characterized their phenotype and their ability to suppress activation of autoreactive T cells. We determined the capacity of VIP to induce Treg in vitro as well as the use of Treg in the treatment of CIA, measuring the clinical evolution and the inflammatory and autoimmune components of the disease.

Results

The administration of VIP to arthritic mice resulted in the expansion of CD4+,CD25+,Foxp3+ Treg in the periphery and joints, which inhibited autoreactive T cell activation/expansion. VIP induced more efficient suppressors on a per‐cell basis. The VIP‐generated CD4+,CD25+ Treg transfer suppressed and significantly ameliorated the progression of the disease.

Conclusion

These results demonstrate the involvement of the generation of Treg in the therapeutic effect of VIP on CIA. The generation of highly efficient Treg by VIP ex vivo could be used as an attractive therapeutic tool in the future, avoiding the administration of the peptide to patients with rheumatoid arthritis.

     

CD25+ cell depletion hastens the onset of severe disease in collagen-induced arthritis

OBJECTIVE: CD4+,CD25+ T regulatory cells may offer opportunities to intervene in the course of autoimmune disease. We wished to evaluate their potential for influencing systemic and chronic joint inflammation by investigating their involvement in collagen-induced arthritis (CIA). METHODS: We depleted DBA/1 mice of CD25+ regulatory cells by injection of a depleting monoclonal antibody specific for CD25 14 days before a single immunization with type II collagen (CII) in Freund's complete adjuvant. CD4+,CD25+ T cells were adoptively transferred to some groups of mice during immunization. Mice were then scored for signs of arthritis, and blood was taken periodically to measure the amounts of CII-specific antibodies. Splenocytes of treated mice were examined in vitro to determine the effects of depletion on proliferation to CII and control antigens. RESULTS: CD25+ cell-depleted DBA/1 mice had significantly more severe disease than control mice following collagen immunization. The magnified severity was also accompanied by higher antibody titers against collagen, and in vitro tests showed increased proliferation of collagen-specific T cells. Adoptively transferring CD4+,CD25+ T cells into depleted mice was shown to reverse the heightened severity. Control mice, which were depleted and immunized with the neoantigen keyhole limpet hemocyanin (KLH), had neither an increased antibody response toward KLH nor an augmented proliferative response, indicating that CD25+ cell depletion preferentially affects immunity against self antigen. CONCLUSION: These results establish a link between CD4+,CD25+ regulatory cells and CIA and provide a rationale for investigating CD4+,CD25+ T regulatory cells in the treatment and prevention of arthritis.     

Innate CD4+CD25+ regulatory T cells are required for oral tolerance and inhibition of CD8+ T cells mediating skin inflammation

To elucidate the role of CD4+CD25+ regulatory T cells in oral tolerance, we used the model of contact hypersensitivity (CHS) to 2,4-dinitrofluorobenzene (DNFB), which is mediated by CD8+ Tc1 effector cells independently of CD4+ T-cell help. Conversely to normal mice, invariant chain knock-out (KO) (Ii degrees / degrees ) mice, which are deficient in CD4+ T cells, cannot be orally tolerized and develop a chronic hapten-specific CHS response. Transfer of naive CD4+ T cells before hapten gavage into Ii degrees / degrees mice restores oral tolerance by a mechanism independent of interleukin-10 (IL-10) production by CD4+ T cells. That naturally occurring CD4+CD25+ T cells are critical for oral tolerance induction is demonstrated by the finding that (1) transfer of CD4+CD25+ but not CD4+CD25- T cells into Ii degrees / degrees recipients completely prevents the CHS response and skin infiltration by CD8+ T cells, by blocking development of hapten-specific CD8+ T cells; (2) in vivo depletion of CD4+CD25+ cells by antibody treatment in normal mice impairs oral tolerance; and (3) CD4+CD25+ T cells inhibit hapten-specific CD8+ T-cell proliferation and interferon gamma (IFN gamma) production, in vitro. These data show that naturally occurring CD4+CD25+ T cells are instrumental for orally induced tolerance and are key actors for the control of antigen-specific CD8+ T-cell effectors mediating skin inflammation.     

The age-dependent cytokine production by murine CD8+ T cells as determined by four-color flow cytometry analysis

Flow cytometry has been used to simultaneously examine intracellular cytokine production and expression of CD44 and CD45RB by murine CD8+ T cells derived from young (2-3 months) or aged (18-22 months) mice. Cytokine production by aged CD8+ T cells differs from that by CD8+ T cells derived from young animals in that a significantly higher percentage of the aged can be triggered to produce interleukin (IL)-4, interferon (IFN)-gamma, and tumor necrosis factor alpha (TNF alpha). Conversely, a greater fraction of young CD8+ T cells produce IL-2. Aged mice not only have a higher percentage of CD8+/CD44hi T cells, but also a larger fraction of these cells are IFN-gamma+ and IL-4+, while a lower fraction are IL-2+ than is observed in young CD8+/CD44hi T cells. In terms of relative contribution to total cytokine synthesis, a greater fraction of CD8+ T cells produce IFN-gamma and IL-4 than in CD4+ T cells, whereas CD4+ T cells are the major producers of IL-2.     

CTLA-4 ablation and interleukin-12 driven differentiation synergistically augment cardiac pathogenicity of cytotoxic T lymphocytes

CD8+ cytotoxic T lymphocytes contribute to viral and autoimmune myocarditis and cardiac allograft rejection. The role of cytotoxic T-lymphocyte-associated antigen (CTLA)-4 as a negative regulator of CD4+ T cells is well defined, yet CTLA-4 regulation of CD8+ T cells is less clear. We studied CTLA-4 regulation of cytotoxic T lymphocytes in a transgenic model of CD8+ T-cell-mediated myocarditis. We generated CTLA-4(-/-) Rag 2(-/-) OT-1 mice, the CD8+ T cells of which express an ovalbumin (OVA) peptide-specific, class I major histocompatibility complex-restricted T-cell receptor. CTLA-4(-/-Tc12) OT-1 effectors, differentiated with interleukin-12 present, are hyperproliferative in vitro, compared with CTLA-4(+/+)Tc12 OT-1 controls. Transfer of low doses of CTLA-4(-/-Tc12) OT-1 cells to cMy-mOVA mice, which express OVA on cardiac myocytes, causes severe myocarditis, with 99% mortality, compared with no mortality after transfer of low doses of CTLA-4(+/+)Tc12 OT-1 cells. High doses of CTLA-4(+/+)Tc12 cells cause lethal myocarditis in cMy-mOVA mice, but high doses of CTLA-4(+/+)Tc0 CTL, generated without interleukin-12, are hypoproliferative within the cardiac-draining lymph node and do not significantly infiltrate the heart. In contrast, CTLA-4(-/-Tc0) cytotoxic T lymphocytes do proliferate in the cardiac-draining lymph node and diffusely infiltrate the heart. Nonetheless, high doses of CTLA-4(-/-Tc0) cells cause only limited tissue damage, and the disease is not lethal. These data show that CTLA-4 regulates myocarditic CD8+ T cell responses and that CTLA-4 deficiency partly overcomes a differentiation block that exists when na?ve CD8+ T cells are stimulated without interleukin-12. Therefore, targeting CTLA-4 solely or in conjunction with interleukin-12 could influence effector CD8+ T cell responses in therapeutically beneficial ways.     

Function of CD4+,CD25+ Treg cells in MRL/lpr mice is compromised by intrinsic defects in antigen-presenting cells and effector T cells

OBJECTIVE: Naturally occurring CD4+,CD25+ Treg cells are central in the maintenance of peripheral tolerance. Impaired activity and/or a lower frequency of these cells is involved in the emergence of autoimmunity. We undertook this study to analyze relative proportions and functional alterations of Treg cells in MRL/lpr mice. METHODS: The frequency of CD4+,CD25+ T cells in the peripheral blood of healthy and autoimmune mice was compared by flow cytometry. The capacity of CD4+,CD25+ T cells to inhibit the proliferation and cytokine secretion of CD4+,CD25- T cells was assessed after polyclonal activation. RESULTS: MRL/lpr mice exhibited a normal percentage of CD4+,CD25 high T cells, and forkhead box P3 messenger RNA and protein expression in Treg cells was not altered. However, MRL/lpr Treg cells displayed a reduced capacity to suppress proliferation and to inhibit interferon-gamma secretion by syngeneic effector CD4+,CD25- T cells, as compared with syngeneic cocultures of CBA/J T cells. Moreover, effector MRL/lpr CD4+,CD25- T cells were substantially less susceptible to suppression even when cultured with CBA/J or MRL/lpr Treg cells. Crossover experiments led us to conclude that in MRL/lpr mice, each partner engaged in T cell regulation displays altered functions. Molecules involved in suppressive mechanisms (CTLA-4 and CD80/CD86) are underexpressed, and antigen-presenting cells (APCs) produce raised levels of interleukin-6, which is known to abrogate suppression. CONCLUSION: Our results suggest that although the frequency and phenotype of Treg cells in MRL/lpr mice are similar to those in normal mice, Treg cells in MRL/lpr mice are not properly stimulated by APCs and are unable to suppress proinflammatory cytokine secretion from effector T cells.     

Induction of autoimmune thyroiditis by depletion of CD4+CD25+ regulatory T cells in thyroiditis-resistant IL-17, but not interferon-gamma receptor, knockout nonobese diabetic-H2h4 mice

Iodine-induced experimental autoimmune thyroiditis in the nonobese diabetic (NOD)-H2h4 mouse is a prototype of animal models of Hashimoto's thyroiditis in humans. Recent studies have shown the resistance to thyroiditis of NOD-H2h4 mice genetically deficient for either IL-17 or interferon (IFN)-γ, implicating both of T helper type 1 (Th1) and Th17 immune responses in disease pathogenesis. However, we hypothesized that robust induction of a single arm of effector T cells (either Th1 or Th17) might be sufficient for inducing thyroiditis in NOD-H2h4 mice. To address this hypothesis, enhanced immune responses consisting of either Th1 or Th17 were induced by anti-CD25 antibody-mediated depletion of regulatory T cells (Treg) in thyroiditis-resistant IL-17 knockout (KO) or IFN-γ receptor (IFN-γR) KO, respectively, NOD-H2h4 mice. Depletion of Treg in IL-17 KO mice (i.e. Th1 enhancement) elicited antithyroglobulin autoantibodies and thyroiditis. Immunohistochemical analysis of the thyroid glands revealed the similar intrathyroidal lymphocyte infiltration patterns, with CD4+ T and CD19+ B cells being dominant between the wild-type and Treg-depleted IL-17 KO mice. In contrast, Treg-depleted IFN-γR KO mice remained thyroiditis resistant. Intracellular cytokine staining assays showed differentiation of Th1 cells in IL-17 KO mice but not of Th17 cells in IFN-γR KO mice. Our findings demonstrate that a robust Th1 immune response can by itself induce thyroiditis in otherwise thyroiditis-resistant IL-17 KO mice. Thus, unlike Th17 cells in IFN-γR KO mice, Th1 cells enhanced by Treg depletion can be sustained and induce thyroiditis.     

Changes in calcium cycling precede cardiac dysfunction during autoimmune myocarditis in mice

Myocardial inflammation contributes to the development of dilated cardiomyopathy, as well as other cardiac diseases. We have previously shown decreased left ventricular function in mice with autoimmune myocarditis. To test the hypothesis that decreased function is mediated by changes in contractility and/or Ca2+ cycling, we isolated cardiac myocytes from mice with myocarditis and age-matched controls at two time points: day 18 (prior to cardiac dysfunction) and day 35 (during cardiac dysfunction). We measured cell shortening and the Ca2+ transient simultaneously at 28 degrees C and 0.3 Hz. We also quantified proteins which regulate contractility and [Ca2+](i), using Western blot analysis. Results showed no change in cell shortening or systolic Ca2+ on day 18, despite a significant reduction in diastolic Ca2+. By day 35, the decrease in diastolic Ca2+ was accompanied by significantly reduced cell shortening and a decrease in the systolic Ca2+ transient. Protein levels of the sarcoplasmic reticulum Ca2+ ATPase were unchanged at both time points, while phospholamban and the sodium/calcium exchanger were significantly reduced in myosin-immunized mice at both time points. Calsequestrin was unchanged at day 18, but was significantly reduced in the myosin-immunized mice on day 35. Results of this study suggest that decreased diastolic Ca2+, as well as protein levels of phospholamban and the sodium/calcium exchanger, may actually contribute to disease progression in autoimmune myocarditis, while changes in calsequestrin may be related to systolic dysfunction in this model.     

A deficiency of CD4+CD25+ T cells permits the development of spontaneous lupus-like disease in mice, and can be reversed by induction of mucosal tolerance to histone peptide autoantigen

It has been repeatedly shown that a subset of CD4+ T cells that constitutively express CD25 on their surface plays a role in the maintenance of self-tolerance. They may directly or indirectly affect the development of autoimmunity in susceptible mice and humans. In this study, we examine the relationship between the percentage of peripheral CD4+CD25+ T cells and the state of disease in spontaneous models of autoimmune disease. We found that both BWF1 and SNF1 mice that spontaneously develop a lupus-like disease have inherently lower percentage of the CD4+CD25+ T cells in their CD4 repertoire compared with normal Balb/c and DBA/1 mice. The percentage of CD4+CD25+ T cells was found to be increased in both normal and lupus-prone mice as they reached 7 to 8 months of age. However, mice with an autoimmune background differed from mice on a normal background in that the number of CD4+CD25+ T cells never reached 5% of the CD4 population. The lower number of the CD4+CD25+ T cells in autoimmune mice was restored to the level seen in normal mice following administration of histone peptide H471 or OVA(323-339) peptide in the absence of adjuvant intranasally but not intradermally. As such transmucosal treatment may ameliorate disease, we conclude that a deficiency in the CD4+CD25+ T cell pool contributes to a susceptibility to develop spontaneous lupus disease.     

Dilated cardiomyopathy update: infectious-immune theory revisited

Dilated cardiomyopathy is characterized by dilatation of the left or right ventricle, or both ventricles. The degree of myocardial dysfunction is not attributable to abnormal loading conditions. The infectious-immune theory has long been hypothesized to explain the pathogenesis of many etiologically unrecognized dilated cardiomyopathies. Inflammations followed by immune reactions, which may be excessive, in the myocardium, evoked by external triggers such as viral infections and/or autoimmune antibodies, continue insidiously, and lead to the process of cardiac remodeling with ventricular dilatation and systolic dysfunction. This ultimately results in dilated cardiomyopathy. Hepatitis C virus-associated heart diseases are good examples of cardiac lesions definitely induced by viral infections in humans that progress to a chronic stage through complicated immune mechanisms. Therapeutic strategies for myocarditis and dilated cardiomyopathy have been obtained through analyses of the acute, subacute, and chronic phases of experimental viral myocarditis in mice. The appropriate modulation of excessive immune reactions during myocarditis, rather than their complete elimination, appears to be a key option in the prevention and treatment of dilated cardiomyopathy. The clinical application of an NF-κB decoy and immune adsorption of IgG3 cardiac autoantibodies have been used as immunomodulating therapies and may provide novel approaches for the treatment of refractory patients with dilated cardiomyopathy. Conventional therapeutic agents for chronic heart failure such as β-blockers, angiotensin-converting enzyme inhibitors, angiotensin receptor blockers, and aldosterone antagonists in particular should be re-evaluated on the basis of their anti-inflammatory properties in the treatment of dilated cardiomyopathy.     

Autologous stem cell transplantation for autoimmunity induces immunologic self-tolerance by reprogramming autoreactive T cells and restoring the CD4+CD25+ immune regulatory network

Despite a rapidly accumulating clinical experience with autologous stem cell transplantation (ASCT) as a treatment for severe refractory autoimmune disease, data on the mechanisms by which ASCT induces immune tolerance are still very scarce. In this study it is shown that ASCT restores immunologic self-tolerance in juvenile idiopathic arthritis (JIA) via 2 mechanisms. First, ASCT induces a restoration of the frequency of FoxP3 expressing CD4+CD25bright regulatory T cells (Tregs) from severely reduced numbers before ASCT to normal levels after ASCT. This recovery is due to a preferential homeostatic expansion of CD4+CD25+ Tregs during the lymphopenic phase of immunereconstitution, as measured by Ki67 and CD44 expression, and to a renewed thymopoiesis of naive mRNA FoxP3 expressing CD4+CD25+ Tregs after ASCT. Second, using artificial antigen-presenting cells to specifically isolate self-reactive T cells, we demonstrate that ASCT induces autoimmune cells to deviate from a proinflammatory phenotype (mRNA interferon-gamma [IFN-gamma] and T-bet high) to a tolerant phenotype (mRNA interleukin-10 [IL-10] and GATA-3 high). These data are the first to demonstrate the qualitative immunologic changes that are responsible for the induction of immune tolerance by ASCT for JIA: the restoration of the CD4+CD25+ immune regulatory network and reprogramming of autoreactive T cells.     

Intricacies of cardiac damage in coxsackievirus B3 infection: Implications for therapy

Heart disease is the leading cause of death in humans, and myocarditis is one predominant cause of heart failure in young adults. Patients affected with myocarditis can develop dilated cardiomyopathy (DCM), a common reason for heart transplantation, which to date is the only viable option for combatting DCM. Myocarditis/DCM patients show antibodies to coxsackievirus B (CVB)3 and cardiac antigens, suggesting a role for CVB-mediated autoimmunity in the disease pathogenesis; however, a direct causal link remains to be determined clinically. Experimentally, myocarditis can be induced in susceptible strains of mice using the human isolates of CVB3, and the disease pathogenesis of postinfectious myocarditis resembles that of human disease, making the observations made in animals relevant to humans. In this review, we discuss the complex nature of CVB3-induced myocarditis as it relates to the damage caused by both the virus and the host's response to infection. Based on recent data we obtained in the mouse model of CVB3 infection, we provide evidence to suggest that CVB3 infection accompanies the generation of cardiac myosin-specific CD4 T cells that can transfer the disease to naïve recipients. The therapeutic implications of these observations are also discussed.     

PAR-2 deficient CD4+ T cells exhibit downregulation of IL-4 and upregulation of IFN-gamma after antigen challenge in mice.

BACKGROUND: To investigate the functional role of protease activated receptor (PAR) -2 in T lymphocytes, we analyzed TCR-mediated inflammatory cytokine production using PAR-2 deficient (KO) and wild type (WT) mice. METHODS: Production of serum IgE and cytokines by spleen CD4+ T cells was determined in OVA-sensitized and OVA-challenged mice of PAR-2 KO in contrast to WT mice. Phosphorylation of JNK1 and 2 was determined by Western blotting. RESULTS: A reduction in serum levels of IgE and IL-4 production by splenic CD4+ T cells from OVA-sensitized and OVA-challenged KO mice compared to WT mice was observed. By contrast, IFN-gamma production was upregulated after antigen stimulation in KO mice. Anti-CD3-mediated phosphorylation of JNK1 was upregulated in splenic CD4+ T cells from KO mice compared to WT mice. CONCLUSIONS: PAR-2 participates in the regulation of T cell cytokine production that may be caused by modulation of JNK1 phosphorylation.     

Diversity of regulatory CD4+T cells controlling distinct organ-specific autoimmune diseases

Depletion of selected regulatory CD4+ T cell subsets induces the spontaneous onset of various immune or autoimmune disorders. It is not clear, however, whether a given subset, notably CD4+CD25+ regulatory T cells, protects from a wide spectrum of immune disorders, or whether specialized subsets of regulatory T cells control each given disease or group of diseases. We report here, using diabetes prone nonobese diabetic (NOD) mice, that depending on the regulatory T cells that are depleted, i.e., CD25+, CD62L+, or CD45RB(low), distinct immune diseases appear after transfer into NOD severe combined immunodeficiency (SCID) recipients. Thus, reconstitution of NOD SCID mice with CD25- T cells induces major gastritis and late-onset diabetes, but no or mild colitis. Reconstitution with CD62L- T cells induces fulminant diabetes with no colitis or gastritis. Reconstitution with CD45RB(high) T cells induces major colitis with wasting disease and no or very moderate gastritis and diabetes. Major differences among the three regulatory T cell subsets are also seen in vitro. The bulk of suppressor cells inhibiting the proliferation of CD4+CD25- T cells in coculture is concentrated within the CD25+ but not the CD62L+ or CD45RB(low) T cell subsets. Similarly, cytokine production patterns are significantly different for each regulatory T cell subset. Collectively, these data point to the diversity and organ selectivity of regulatory T cells controlling distinct autoimmune diseases whatever the underlying mechanisms.