Establishment of animal model of antigen-specific T lymphocyte recruitment into nasal mucosa

DO11.10 transgenic mice, expressing an ovalbumin (OVA)-specific alphabeta T-cell receptor (TCR), have been used as a model of various immune diseases associated with T lymphocytes. Some studies of immunoresponse in lung have involved adoptive transfer of DO11.10 mice. As of yet, however, there have been no studies of the adoptive transfer model in the upper airway. The purpose of this study was to establish an animal model to clarify the recruitment mechanism and the roles of Th2 cells in allergic rhinitis. In accordance with the adoptive transfer system, we generated Th0, Th1 and Th2 cells from DO11.10 mice and transferred them into wild type BALB/c mice. Following nasal OVA challenge to DO11.10 mice or to the BALB/c mice into which antigen-specific Th2 cells had been transferred, the number of local antigen-specific TCR-positive cells accompanying the local eosinophilia had significantly increased. However, nasal OVA challenge to BALB/c mice into which antigen-specific Th0 or Th1 cells were transferred failed to increase the number of local OVA-specific TCR positive cells. These observations suggest that an antigen-specific homing mechanism of Th2 cells may exist in nasal mucosa. Analysis of this model will assist in the development of new therapeutic strategy, which targets Th2 cells in allergic rhinitis.     

Memory/effector T cells in TCR transgenic mice develop via recognition of enteric antigens by a second, endogenous TCR.

The majority of clonotypic CD4(+) T cells in the intestinal lamina propria of DO11.10 TCR transgenic mice have an activated/memory phenotype and produce effector cytokines despite the absence of prior exposure to ovalbumin (OVA), the transgene-specific antigen. A small number of splenic T cells have a similar phenotype. Clonotypic T cells from Peyer's patch are intermediate in both phenotype and effector cytokine production. Flow cytometric analysis of cells isolated from thymectomized, OVA-naive DO11.10 mice treated with continuous administration of BrdU indicated that a significant fraction of clonotype-positive T cells in the lamina propria and Peyer's patch were in the cell cycle, with significantly fewer cycling cells in the spleen. Most of the cycling cells from each anatomic site expressed low levels of CD45RB. Effector cytokine expression was enriched in the CD45RB(low) populations. These memory/effector cell populations were eliminated in DO11.10/SCID and DO11.10/RAG-2(-/-) mice, suggesting that recognition of non-OVA antigens through a second, non-clonotypic TCR was driving differentiation of memory/effector cells in naive BALB/c DO11.10 mice. Clonotypic CD4(+) T cells isolated from DO11.10, but not from DO11.10/SCID or DO11.10/RAG-2(-/-) mice, were stimulated to enter the cell cycle by antigen-presenting cells pulsed with an intestinal bacterial antigen extract. These data provide direct evidence that enteric bacterial antigens can activate transgenic T cells through a second, non-clonotypic TCR, and support the notion that the development and turnover of memory/effector cells in vivo is driven by the intestinal flora.     

Ag and IL‐2 immune complexes efficiently expand Ag‐specific Treg cells that migrate in response to chemokines and reduce localized immune responses

An intravenous administration of a high‐dose antigen (Ag) can induce immune tolerance and suppress the immune response, but the mechanism remains unclear. We recently proved that a combined i.v. administration of OVA and IL‐2‐anti‐IL‐2 Ab immune complexes (IL‐2 ICs) efficiently expands OVA‐specific Treg cells in the thymus and induces their migration into peripheral blood, by using OVA‐specific TCR Tg‐expressing DO11.10 mice. Here, we demonstrate that the expanded OVA‐specific Treg cells rapidly move into the air pouch after OVA injection in DO11.10 mice. The migration was inhibited by blocking the axis of a chemokine receptor, CCR2. Moreover, prior treatment with OVA and IL‐2 ICs enhanced OVA‐specific Treg‐cell migration and inhibited OVA‐induced delayed‐type hypersensitivity (DTH) reactions in the skin of BM chimeric mice with 15% of T cells expressing OVA‐specific TCR. Blocking the CCR2 axis reversed this suppression of DTH in these mice. Furthermore, prior treatment with OVA and IL‐2 ICs effectively reduced DTH reactions even in WT mice possessing only a very small population of OVA‐specific T cells. Thus, the treatment with Ag and IL‐2 ICs can efficiently expand Ag‐specific Treg cells with the capacity to migrate and reduce localized immune responses.     

Induction of systemic tolerance in normal but not in transgenic mice through continuous feeding of ovalbumin

The ingestion of most dietary protein can cause systemic tolerance, and such tolerance is easier to induce in younger than in older mice. In this study, we examined whether oral tolerance to ovalbumin (OVA) could be induced in OVA‐T‐cell receptor (OVA‐TCR)‐specific transgenic mice. Continuous feeding or gavage with OVA induced tolerance, measured as reduced antibody production, in young and aged BALB/c mice, in a dose‐dependent manner, but this effect was not observed in transgenic mice. Once BALB/c mice became tolerant, this state was maintained for over 44 weeks, although the tolerant state could be reversed by adoptive cell transfer. DO11.10 mice did not become tolerant upon continuous feeding with OVA, and the adoptive transfer of naïve cells increased the levels of specific antibodies in their sera after antigenic challenge. The immunization schedule used here leads to a Th2‐dependent antibody response in normal BALB/c mice. However, the same schedule induced both Th1‐ and Th2‐antibody responses in transgenic mice. Dendritic cells (DC) from tolerant BALB/c mice were less efficient in the induction of the proliferation of cocultured T cells from both BALB/c and DO11.10 mice, as well as Th1 [interleukin (IL)‐2 and interferon (IFN)‐γ] and Th2 (IL‐4 and IL‐10) cytokine production. The DC from DO11.10 transgenic mice were equally efficient in the induction of T‐cell proliferation in both normal and transgenic mice, as well as in the induction of Th1 and Th2 cytokines, whether or not the mice consumed OVA. Transforming growth factor (TGF)‐β secretion was significantly lower in the supernatants of T cells from both normal and transgenic mice cocultured with DC from DO11.10 mice that had consumed OVA, while it was significantly higher in the presence of DC from normal tolerant mice, thus implicating TGF‐β as a regulatory cytokine in oral tolerance in the murine model.     

Regulatory T cells participate in CD39-mediated protection from renal injury

CD39 is an ecto-enzyme that degrades extracellular nucleotides, such as ATP, and is highly expressed on by the vasculature and circulating cells including Foxp3+ regulatory T (Treg) cells. To study the role of purinergic regulation in renal disease, we used the adriamycin nephropathy (AN) mouse model of chronic renal injury, using human CD39-transgenic (hCD39Tg) and wild-type (WT) BALB/c mice. Effects of CD39 expression by Treg cells were assessed in AN by adoptive transfer of CD4(+) CD25(+) and CD4(+) CD25(-) T cells isolated from hCD39Tg and WT mice. hCD39Tg mice were protected from renal injury in AN with decreased urinary protein and serum creatinine, and significantly less renal injury compared with WT mice. While WT CD25(+) and hCD39Tg CD25(-) T cells conferred some protection against AN, hCD39Tg CD25(+) Treg cells offered greater protection. In vitro studies showed direct pro-apoptotic effects of ATP on renal tubular cells. In conclusion, hCD39 expressed by circulating leukocytes and intrinsic renal cells limits innate AN injury. Specifically, CD39 expression by Treg cells contributes to its protective role in renal injury. These findings suggest that extracellular nucleotides mediate AN kidney injury and that CD39, expressed by Treg cells and other cells, is protective in this model.     

CD4+ CD25+调节性T细胞AICD机制的研究

目的探讨CD4^＋CD25^＋调节性T细胞活化诱导的细胞死亡（AICD）发生的机制。方法CD4^＋CD25^＋T细胞以磁性细胞分离器（MACS）从BALB／c小鼠或DO11．10小鼠的静息T细胞分离纯化。体外细胞增殖抑制实验证实其免疫调节作用。CD4^＋CD25^＋T细胞的AICD以CD3／CD28单克隆抗体活化或以特异性OVA323-339肽、抗原提呈细胞活化等两种方法获得。CD4^＋CD25^＋T细胞凋亡相关基因的表达通过实时定量PCR检测。流式细胞仪检测细胞的凋亡率。进一步观察FasL中和抗体、TRAIL中和抗体及caspase抑制剂zVAD-fmk对CD4^＋CD25^＋T细胞凋亡的影响。结果MACS成功分离CD4^＋CD25^＋T细胞，纯度可达98％，该细胞可特异性表达Foxp3基因，能明显抑制效应性T细胞的体外增殖。CD3／CD28抗体以及OVA特异性抗原活化8d的CD4^＋CD25^＋调节性T细胞AICD达39％～45％。活化前后的CD4^＋CD25^＋调节性T细胞死亡受体家族表达发生明显变化；FasL、TRAIL中和抗体及zVAD-fmk可明显抑制CD4^＋CD25^＋调节性T细胞的凋亡。结论FasL／Fas及其他凋亡相关分子可能参与了CD4^＋CD25^＋调节性T细胞的凋亡。     

The murine mutation scurfy (sf) results in an antigen-dependent lymphoproliferative disease with altered T cell sensitivity

The scurfy (sf) murine mutation results in a rapidly fatal lymphoproliferative disease, causing death by 26 days. Mature CD4+ T cells which tested hyperresponsive to T cell receptor (TCR) stimulation are involved. When sf was bred onto a transgenic line (DO11.10) in which 75 - 95 % of the T cells express TCR for ovalbumin (OVA) 323 - 339, sf / Y OVA mice had prolonged lifespans and less severe clinical symptoms compared to controls. However, sf / Y OVA mice eventually developed disease and died with manifestations similar to those of the original sf strain. The Rag1 knockout (KO) mouse, which cannot produce mature T (or B) cells without the addition of functional transgenes, was chosen for further breeding. The combination of Rag1 KO, the OVA transgene, and sf produced mice with 100 % of their mature DO11.10 alpha beta T cells reactive strictly to OVA peptide. None of these Rag1 - / - sf / Y OVA mice developed the scurfy disease. They retained central deletion capability in vivo, but demonstrated an altered in vitro response to OVA peptide. These results indicate that mice without TCR for endogenous antigens do not develop scurfy symptoms, and are consistent with the hypothesis that the sf mutation requires antigen stimulation to manifest disease, perhaps via altered TCR sensitivity.     

Low-level regulatory T-cell activity is essential for functional type-2 effector immunity to expel gastrointestinal helminths

Helminth infection is frequently associated with the expansion of regulatory T cells (Tregs) and suppression of immune responses to bystander antigens. We show that infection of mice with the chronic gastrointestinal helminth Heligmosomoides polygyrus drives rapid polyclonal expansion of Foxp3⁺Helios⁺CD4⁺ thymic (t)Tregs in the lamina propria and mesenteric lymph nodes while Foxp3⁺Helios⁻CD4⁺ peripheral (p)Treg expand more slowly. Notably, in partially resistant BALB/c mice parasite survival positively correlates with Foxp3⁺Helios⁺CD4⁺ tTreg numbers. Boosting of Foxp3⁺Helios⁺CD4⁺ tTreg populations by administration of recombinant interleukin-2 (rIL-2):anti-IL-2 (IL-2C) complex increased worm persistence by diminishing type-2 responsiveness in vivo, including suppression of alternatively activated macrophage and granulomatous responses at the sites of infection. IL-2C also increased innate lymphoid cell (ILC) numbers, indicating that Treg functions dominate over ILC effects in this setting. Surprisingly, complete removal of Tregs in transgenic Foxp3-DTR mice also resulted in increased worm burdens, with “immunological chaos” evident in high levels of the pro-inflammatory cytokines IL-6 and interferon-γ. In contrast, worm clearance could be induced by anti-CD25 antibody–mediated partial depletion of early Treg, alongside increased T helper type 2 responses and without incurring pathology. These findings highlight the overarching importance of the early Treg response to infection and the non-linear association between inflammation and the prevailing Treg frequency.     

Killing of naive T cells by CD95L-transfected dendritic cells (DC): in vivo study using killer DC-DC hybrids and CD4(+) T cells from DO11.10 mice

Dendritic cells (DC) play the dual task of initiating cellular immunity against potentially harmful foreign antigens (Ag), while maintaining immunological tolerance to self-Ag and environmental Ag. As an approach to induce Ag-specific suppression, we and others introduced CD95 ligand (L) cDNA into DC. The resulting "killer" DC delivered apoptotic signals, instead of activation signals, to primed CD4(+) T cells in vitro and induced Ag-specific immunosuppression in vivo. To study the impact of killer DC on naive T cells, the fate of Ag-reactive T cells and the extent of their depletion after killer DC treatment, we performed in vitro and in vivo reconstitution experiments using: (a) killer DC-DC hybrids created between CD95L-transduced XS106 DC clone (A/J origin) and splenic DC from BALB/c mice, (b) CD4(+) T cells isolated from DO11.10 transgenic mice (BALB/c background), and (c) OVA(323-339) peptide as relevant Ag. Ovalbumin (OVA)-pulsed killer DC-DC hybrids inhibited DO11.10 T cell activation triggered by conventional DC, instead of inducing their activation. Rapid apoptosis of T cells was observed after co-culture with OVA-pulsed killer DC-DC hybrids, but not with non-pulsed killer DC-DC hybrids or OVA-pulsed control DC-DC hybrids. For in vivo reconstitution, (BALB/cxA/J)F1 mice received subcutaneous administration of killer DC-DC hybrids, followed by intravenous inoculation of DO11.10 T cells. Killer DC-DC hybrids migrated preferentially to draining lymph nodes albeit with relatively low efficiency (0.5-1% recovery) and they induced significant, but incomplete (30-40%) killing of DO11.10 T cells in this location. These results document the abilities of CD95L-transduced DC to trigger apoptosis of naive T cells in an Ag-specific manner, to overrule T cell activation signals delivered by conventional DC, and to reduce local frequencies of Ag-reactive T cells in vivo. Our data also uncover two major limitations (relatively low homing efficiency and incomplete elimination of Ag-reactive T cells) that remain to be overcome for clinical application of CD95L-transduced DC strategy.     

Unaltered negative selection and Treg development of self‐reactive thymocytes in TCR transgenic Fyn‐deficient mice

The tyrosine kinase Fyn has been implicated as playing an important role in the generation of both stimulatory and inhibitory signaling events induced by TCR engagement. To assess the role of Fyn for antigen‐driven negative selection and Treg development, which are both dependent on the strength and nature of TCR signaling, we generated mice that co‐express the transgenes for OVA and the OT‐II TCR, which recognizes a peptide from OVA. In mice expressing both transgenes, negative selection, Treg development in the thymus, and the number of Treg in the periphery were each unaffected by ablation of Fyn. Moreover, fyn^?/? Treg were functional, as assessed in vitro. We further tested the role of Fyn for the adaptor function of c‐Cbl, using mice containing a point mutation in c‐Cbl that abolishes its E3 ubiquitin ligase function but maintains its adaptor function. The functional and signaling properties of this mutant c‐Cbl were unaltered in fyn^?/? thymocytes. Combined, these data indicate that Fyn was not required for the induction of central tolerance by negative selection, the adaptor protein role of c‐Cbl, or the normal development and function of Treg.     

Positive and negative thymic selection in T cell receptor-transgenic mice correlate with Nur77 mRNA expression

The orphan nuclear receptor Nur77 has been implicated in thymic negative selection. We studied the effect of two T cell receptor (TCR) transgenes on positive selction and Nur77 mRNA expression in thymus. DO11.10 mice, expressing a transgenic TCR specific for an ovalbumin (OVA) 323–339 peptide presented by I-A^d, were found to have an enlarged thymus with a reduced apoptotic activity, measured by flow cytometry, reduced mitochondrial membrane potential and terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling (TUNEL) techniques. In contrast, in F5 mice expressing a transgenic TCR recognizing the influenza virus nucleoprotein (NP) 366–374 peptide restricted by D^b, this positive selection effect was much less pronounced. Positive thymic selection in DO11.10 TCR⁺ mice correlated with a reduced level of Nur77 mRNA expression shown by Northern blot. F5 mice expressed levels close to those expressed by the wild type. Both transgenic mouse strains responded with extensive cortical apoptosis, and with up-regulation of Nur77 mRNA, to injection of cognate peptides. As 9-cis-Retinoic acid (9-cis-RA) inhibits Nur77-dependent apoptosis in T cell hybridomas in vitro, mice were pretreated with the drug to investigate a similar effect in vivo. However, the drug itself, at saturating concentrations, caused extensive apoptosis in immature CD4⁺/CD8⁺ thymocytes. The result demonstrates a correlation between Nur77 expression and thymic apoptotic activity, both during positive and negative selection events.     

A limited antigen-specific cellular response is sufficient for the early control of Mycobacterium tuberculosis in the lung but is insufficient for long-term survival

Mice that were transgenic for a T-cell receptor (TCR) specific for ovalbumin peptide(323-339) (DO11.10) were able to survive an infection with Mycobacterium tuberculosis for approximately 80 days. This limited early control of infection was associated with gamma interferon production, inducible nitric oxide synthase expression within the lung, and an influx of clonotypic lymphocytes. The control of M. tuberculosis was lost in DO11.10 mice bred in a rag mutant background, demonstrating that the immune responsiveness was recombinase dependent and likely to be associated with the expression of an alternative alpha TCR by DO11.10 mice. A characterization of the antigen specificity in DO11.10 TCR transgenic mice demonstrated that the specificity was limited and dominated by the 26-kDa (Rv1411c) lipoprotein of M. tuberculosis. This study identifies this lipoprotein as an important and potent inducer of protective T cells within the lungs of mice infected with M. tuberculosis and therefore as a possible target for vaccination.     

Evidence for a repertoire of functional untolerized CD4+ T cells specific for melanoma-associated antigens

Active vaccination against melanoma requires tolerance break as melanoma-associated antigens (MAA) used in vaccine formula are mostly self-antigens. While tolerance to MAA in the CD8(+) T cell compartment is well characterized, it is still not the case for the CD4(+) T cell compartment. Here, we analysed CD4(+) T cell tolerance to such antigens in mice genetically engineered to express ovalbumin (OVA) in melanocytes (Tyr-OVA mice). When we crossed Tyr-OVA mice with DO11.10 and OT-II mice transgenic for an OVA-specific TCR restricted by MHC class II, we observed different tolerization levels. Central tolerance was complete for high avidity DO11.10 CD4(+) T cells, but absent for low avidity OT-II CD4(+) T cells. OT-II CD4(+) T cells also ignored OVA in the periphery of Tyr-OVA mice, albeit being potently reactive to vaccination. OVA challenge in single transgenic Tyr-OVA mice confirmed the existence of OVA-reactive CD4(+) T cells with the induction of efficient T helper cells for antibody production and anti-tumour T cell response. In total, our study demonstrates the existence of low avidity MAA-specific CD4(+) T cells escaping by ignorance central and peripheral tolerance, but valuable in the context of vaccination against melanoma.     

C5a receptor‐deficient dendritic cells promote induction of Treg and Th17 cells

C5a is a proinflammatory mediator that has recently been shown to regulate adaptive immune responses. Here we demonstrate that C5a receptor (C5aR) signaling in DC affects the development of Treg and Th17 cells. Genetic ablation or pharmacological targeting of the C5aR in spleen‐derived DC results in increased production of TGF‐β leading to de novo differentiation of Foxp3⁺ Treg within 12 h after co‐incubation with CD4⁺ T cells from DO11.10/RAG2^?/? mice. Stimulation of C5aR^?/? DC with OVA and TLR2 ligand Pam₃CSK₄ increased TGF‐β production and induced high levels of IL‐6 and IL‐23 but only minor amounts of IL‐12 leading to differentiation of Th cells producing IL‐17A and IL‐21. Th17 differentiation was also found in vivo after adoptive transfer of CD4⁺ Th cell into C5aR^?/? mice immunized with OVA and Pam₃CSK₄. The altered cytokine production of C5aR^?/? DC was associated with low steady state MHC class II expression and an impaired ability to upregulate CD86 and CD40 in response to TLR2. Our data suggest critical roles for C5aR in Treg and Th17‐cell differentiation through regulation of DC function.     

Helper CD4+ T cells for IgE response to a dietary antigen develop in the liver

BACKGROUND: Although T-cell responses to food antigens are normally inhibited either by deletion, active suppression, or both of antigen-specific T cells, T helper cells for IgE response to a food antigen still develop by unknown mechanisms in a genetically susceptible host. OBJECTIVE: We determined the site at which those IgE helper T cells develop. METHODS: We administered ovalbumin (OVA) orally to DO11.10 mice and studied CD4+ T cells in Peyer's patches, the spleen, and the liver. Helper activity for IgE response was assessed by adoptively transferring those CD4+ T cells to naive BALB/c mice, followed by systemic immunization with OVA. RESULTS: OVA-specific CD4+ T cells were deleted by cell death in the liver and Peyer's patches of DO11.10 mice fed OVA. OVA-specific CD4+ T cells that survived apoptosis in the liver expressed Fas ligand and secreted IL-4, IL-10, and transforming growth factor beta(1). CD4+ T cells producing IFN-gamma were deleted in the liver by repeated feeding of OVA. On transfer of CD4+ T cells to naive mice and systemic immunization with OVA, a marked increase in OVA-specific IgE response developed only in the mice that received hepatic CD4+ T cells from OVA-fed mice, the effect of which was not observed in the recipients of hepatic CD4+ T cells deficient in IL-4. In addition, significant suppression of delayed-type hypersensitivity and IgG(1)/IgG(2a) responses to OVA was observed in the recipients of hepatic CD4+ T cells, and this suppression required Fas/Fas ligand interaction. CONCLUSION: Together, these results suggested that a food antigen might negatively select helper T cells for IgE response to the antigen by preferential deletion of T(H)1 cells in the liver.     

Regulation of the Development of Asthmatic Inflammation by In Situ CD4+Foxp3+ T Cells in a Mouse Model of Late Allergic Asthma

CD4⁺Foxp3⁺T cells (Tregs) mediate homeostatic peripheral tolerance by suppressing helper T2 cells in allergy. However, the regulation of asthmatic inflammation by local (in situ) Tregs in asthma remains unclear. BALB/c mice sensitized and challenged with ovalbumin (OVA) (asthma group) developed asthmatic inflammation with eosinophils and lymphocytes, but not mast cells. The number of Tregs in the circulation, pulmonary lymph nodes (pLNs), and thymi significantly decreased in the asthma group compared to the control group without OVA sensitization and challenge in the effector phase. The development of asthmatic inflammation is inversely related to decreased Tregs with reduced mRNA expression such as interleukin (IL)-4, transforming growth factor-β1, and IL-10, but not interferon-γ, in pLNs. Moreover, M2 macrophages increased in the local site. The present study suggests that Tregs, at least in part, may regulate the development of asthmatic inflammation by cell-cell contact and regional cytokine productions.     

Restriction of the CD4+ T-cell receptor repertoire prevents immune pathology in TGF-beta1 knockout mice

Mice with a targeted deletion in TGF-beta1 spontaneously develop CD4+ T-cell-dependent multifocal inflammatory disease and autoimmune pathology. T cells from TGF-beta1-/- mice are strongly activated, but the mechanisms that lead to T-cell activation and organ pathology are not well understood. Recent work shows that TGF-beta1 raises the threshold for signaling through the TCR, suppressing the response of T cells to mitogenic stimuli. This suggests the possibility that CD4+ T cells in TGF-beta1-/- mice become aberrantly activated and cause damage in response to physiologic inputs that ordinarily are not sufficient for cell activation, such as homeostatic MHC-TCR interactions, cytokines, or adhesion molecules. This model predicts that pathology is largely antigen-independent, and that CD4+ T cells, regardless of antigen specificity, will become activated in TGF-beta1-/- mice, with subsequent organ pathology. To test this model, we crossed BALB/c-TGF-beta1-/- mice with the DO11.10 TCR transgenic mouse. To obviate the possible development of nonclonotypic TCRs, we also bred in a deficiency in RAG-1. Cohorts of highly inbred BALB/c background TGF-beta1-/- mice with an increasingly restricted CD4+ T-cell repertoire (TGF-beta1-/- mice; DO11.10-TGF-beta1-/- mice; DO11.10-RAG-1-/-TGF-beta1-/- mice) were then analyzed for inflammatory organ pathology and T-cell activation. The data show that progressively restricting the CD4+ T-cell repertoire improved survival, ameliorated target organ pathology, and reduced T-cell activation to control levels. Therefore, these results find no support for the involvement of atypical T-cell activation pathways in disease in TGF-beta1-/- mice. Rather, T-cell activation and pathology in TGF-beta1-/- mice appear to be functions of typical TCR activation pathways. This supports the hypothesis that immune pathology in TGF-beta1-/- mice is self-antigen triggered.     

Sublingual tolerance induction with antigen conjugated to cholera toxin B subunit induces Foxp3+CD25+CD4+ regulatory T cells and suppresses delayed-type hypersensitivity reactions

Although sublingual (s.l.) immunotherapy with selected allergens is safe and often effective for treating patients with allergies, knowledge of the immunological mechanisms involved remains limited. Can s.l. administration of antigen (Ag) induce peripheral immunological tolerance and also suppress delayed‐type hypersensitivity (DTH) responses? To what extent can s.l.‐induced tolerance be explained by the generation of Foxp3⁺CD25⁺CD4⁺ regulatory T cells (T_reg)? This study addressed these questions in mice and compared the relative efficacy of administering ovalbumin (OVA) conjugated to cholera toxin B (CTB) subunit with administration of the same Ag alone. We found that s.l. administration of a single or even more efficiently three repeated 40‐μg doses of OVA/CTB conjugate suppressed T‐cell proliferative responses to OVA by cervical lymph node (CLN), mesenteric lymph node (MLN) and spleen cells and concurrently strongly increased the frequency of Ag‐specific T_reg in CLN, MLN and spleen and also transforming growth factor‐β (TGF‐β) levels in serum. The CLN and splenic cells from OVA/CTB‐treated BALB/c mice efficiently suppressed OVA‐specific T‐cell receptor (TCR) transgenic (DO11.10) CD25^?CD4⁺ effector T‐cell proliferation in vitro. Further, s.l. treatment with OVA/CTB completely suppressed OVA‐specific DTH responses in vivo and T‐cell proliferative responses in mice immunized subcutaneously with OVA in Freund's complete adjuvant. The intracellular expression of Foxp3 was strongly increased in OVA‐specific (KJ1‐26⁺) CD4⁺ T cells from OVA/CTB‐treated mice. Thus, s.l. administration of CTB‐conjugated Ag can efficiently induce peripheral T‐cell tolerance associated with strong increases in serum TGF‐β levels and in Ag‐specific Foxp3⁺CD25⁺CD4⁺ T_reg cells.     

Dual Effects of Respiratory Syncytial Virus Infections on Airway Inflammation by Regulation of Th17/Treg Responses in Ovalbumin-Challenged Mice

We investigated the effects of respiratory syncytial virus (RSV) infections on ovalbumin (OVA)-challenged mice via regulation of Th17/Treg cell responses. BALB/c mice were challenged with OVA, followed by RSV infections twice. In OVA-challenged mice, the secretion of Th2/Th17-type cytokines, airway hyperresponsiveness and inflammation were significantly inhibited by initial RSV infection. Moreover, the in vivo findings demonstrated that initial RSV infection reversed the imbalance of Th17/Treg responses. In contrast, RSV re-infection strengthened Th2/Th17-type cytokine secretion, airway hyperresponsiveness, and inflammation, especially for lymphocyte infiltration in OVA-challenged mice. Meanwhile, RSV re-infection enhanced the imbalanced Th17/Treg responses. Upon all results reveal that RSV-induced respiratory infections may lead to dual effects pertaining to allergic airway inflammation by regulation of Th17/Treg responses.     

1140918040Prevention of abortion in the CBAxDBA/2 model by intravaginal TGF-β is associated with local recruitment of predominantly CD8+ Foxp3+ T cells to the genital tract

Problem: Spontaneous abortions in DBA/2‐mated CBA/J mice can be prevented by an immune response to BALB/c, and CD4⁺25⁺ Treg cells as well as CD8⁺ T cells have been proposed to confer protection. Recently a 2 ng dose of intravaginal TGF‐β3 at the time of exposure to DBA/2 semen was shown to be effective. TGF‐β is known to facilitate development of Treg cells. Is there evidence for local Treg induction? Methods: The phenotype of cellular recruitment to the vaginal wall and uterus was established by immunostaining tissue sections from CBA/J females following intravaginal TGF‐β treatment. The phenotype of cells in vaginal washings 48 hr after TGF‐β was determined by flow cytometry. Results: Increased numbers of CD3⁺, CD25⁺, and CD11c⁺ cells were found in vaginal mucosa with increasing doses of TGF‐β. A 2 ng TGF‐β3 treatment at the time of estrus recruited Foxp3⁺ cells to the vaginal lumen, and the majority of these were CD8⁺; CD4⁺ cells were also present, but expressed only low levels of CD25 and CTLA4. A 20 ng dose recruited predominantly CD4⁺8⁺ Foxp3⁺ cells. Conclusion: Induction of Tregs to semen‐associated DBA/2 antigens may prevent pregnancy loss in the CBAxDBA/2 model without the need for BALB/c as an immunogen. The Treg phenotype in the genital tract is compatible with additional members of the Treg family that recognize Class I MHC and associated paternal peptides and prevent abortions.