Relative Resistance of Human CD4+ Memory T Cells to Suppression by CD4+CD25+ Regulatory T Cells

Successful expansion of functional CD4⁺CD25⁺ regulatory T cells (T_reg) ex vivo under good manufacturing practice conditions has made T_reg‐cell therapy in clinical transplant tolerance induction a feasible possibility. In animals, T_reg cells home to both transplanted tissues and local lymph nodes and are optimally suppressive if active at both sites. Therefore, they have the opportunity to suppress both naïve and memory CD4⁺CD25^? T cells (Tresp). Clinical transplantation commonly involves depleting therapy at induction (e.g. anti‐CD25), which favors homeostatic expansion of memory T cells. Animal models suggest that T_reg cells are less suppressive on memory, compared with naïve Tresp that mediate allograft rejection. As a result, in the context of human T_reg‐cell therapy, it is important to define the effectiveness of T_reg cells in regulating naïve and memory Tresp. Therefore, we compared suppression of peripheral blood naïve and memory Tresp by fresh and ex vivo expanded T_reg cells using proliferation, cytokine production and activation marker expression (CD154) as readouts. With all readouts, naïve human Tresp were more suppressible by approximately 30% than their memory counterparts. This suggests that T_reg cells may be more efficacious if administered before or at the time of transplantation and that depleting therapy should be avoided in clinical trials of T_reg cells.     

Donor‐Specific CD8+Foxp3+ T Cells Protect Skin Allografts and Facilitate Induction of Conventional CD4+Foxp3+ Regulatory T Cells

CD4⁺ regulatory T cells play a critical role in tolerance induction in transplantation. CD8⁺ suppressor T cells have also been shown to control alloimmune responses in preclinical and clinical models. However, the exact nature of the CD8⁺ suppressor T cells, their induction and mechanism of function in allogeneic transplantation remain elusive. In this study, we show that functionally suppressive, alloantigen‐specific CD8⁺Foxp3⁺ T cells can be induced and significantly expanded by stimulating naïve CD8⁺ T cells with donor dendritic cells in the presence of IL‐2, TGF‐β1 and retinoic acid. These CD8⁺Foxp3⁺ T cells express enhanced levels of CTLA‐4, CCR4 and CD103, inhibit the up‐regulation of costimulatory molecules on dendritic cells, and suppress CD4 and CD8 T cell proliferation and cytokine production in a donor‐specific and contact‐dependent manner. Importantly, upon adoptive transfer, the induced CD8⁺Foxp3⁺ T cells protect full MHC‐mismatched skin allografts. In vivo, the CD8⁺Foxp3⁺ T cells preferentially traffic to the graft draining lymph node where they induce conventional CD4⁺Foxp3⁺ T cells and concurrently suppress effector T cell expansion. We conclude that donor‐specific CD8⁺Foxp3⁺ suppressor T cells can be induced and exploited as an effective form of cell therapy for graft protection in transplantation.     

The Jak Inhibitor CP‐690,550 Preserves the Function of CD4+CD25brightFoxP3+ Regulatory T Cells and Inhibits Effector T Cells

The Jak inhibitor CP‐690,550 inhibits alloreactivity and is currently being investigated for prevention of allograft rejection after transplantation. In this study, we examined the effect of CP‐690,550 on IL‐2‐mediated Jak/STAT5 phosphorylation by CD4⁺CD25^brightFoxP3⁺CD127^?/low T cells (Treg) and CD4⁺CD25^neg effector T cells (Teff) in kidney transplant (KTx) patients. Phosphospecific flow cytometry was used to study the effect of CP‐690,550 on IL‐2‐induced intracellular STAT5‐phosphorylation. IL‐2‐induced phosphorylation of STAT5 (P‐STAT5) in both Treg and Teff, which was significantly higher for CD4⁺CD25^bright Treg (increased by 71%, mean) than for CD4⁺CD25^neg Teff (increased by 42%). In the presence of 100 ng/mL CP‐690,550, a clinically relevant exposure, IL‐2‐induced P‐STAT5 was partially inhibited in CD4⁺CD25^brightTreg (% inhibition; 51%), while almost completely blocked in Teff (%inhibition; 84%, p = 0.03). The IC₅₀ was 2–3 times higher for Treg (104 ng/mL) than for Teff (40 ng/mL, p = 0.02). In the presence of CP‐690,550, Treg exhibited additional suppressive activities on the alloactivated proliferation of Teff (56%, mean). In addition, CD4⁺CD25^bright Treg from KTx‐patients receiving CP‐690,550 vigorously suppressed the proliferation of Teff (87%, mean). Our findings show that CP‐690,550 effectively inhibits Teff function but preserves the suppressive activity of CD4⁺CD25^bright regulatory T cells.     

Allergic Conjunctivitis Renders CD4+ T Cells Resistant to T Regulatory Cells and Exacerbates Corneal Allograft Rejection

Allergic diseases rob corneal allografts of immune privilege and increase immune rejection. Corneal allograft rejection in BALB/c allergic hosts was analyzed using a short ragweed (SWR) pollen model of allergic conjunctivitis. Allergic conjunctivitis did not induce exaggerated T‐cell responses to donor C57BL/6 (B6) alloantigens or stimulate cytotoxic T lymphocyte (CTL) responses. Allergic conjunctivitis did affect T regulatory cells (Tregs) that support graft survival. Exogenous IL‐4, but not IL‐5 or IL‐13, prevented Treg suppression of CD4⁺ effector T cells isolated from naïve mice. However, mice with allergic conjunctivitis developed Tregs that suppressed CD4⁺ effector T‐cell proliferation. In addition, IL‐4 did not inhibit Treg suppression of IL‐4Rα^?/? CD4⁺ T‐cell responses, suggesting that IL‐4 rendered effector T cells resistant to Tregs. SRW‐sensitized IL‐4Rα^?/? mice displayed the same 50% graft survival as nonallergic WT mice, that was significantly less than the 100% rejection that occurred in allergic WT hosts, supporting the role of IL‐4 in the abrogation of immune privilege. Moreover, exacerbation of corneal allograft rejection in allergic mice was reversed by administering anti‐IL‐4 antibody. Thus, allergy‐induced exacerbation of corneal graft rejection is due to the production of IL‐4, which renders effector T cells resistant to Treg suppression of alloimmune responses.     

Expression of CD39 by Human Peripheral Blood CD4+CD25+ T Cells Denotes a Regulatory Memory Phenotype

We have shown that CD39 and CD73 are coexpressed on the surface of murine CD4⁺Foxp3⁺ regulatory T cells (Treg) and generate extracellular adenosine, contributing to Treg immunosuppressive activity. We now describe that CD39, independently of CD73, is expressed by a subset of blood‐derived human CD4⁺CD25⁺CD127lo Treg, defined by robust expression of Foxp3. A further distinct population of CD4⁺CD39⁺ T lymphocytes can be identified, which do not express CD25 and FoxP3 and exhibit the memory effector cellular phenotype. Differential expression of CD25 and CD39 on circulating CD4⁺ T cells distinguishes between Treg and pathogenic cellular populations that secrete proinflammatory cytokines such as IFNγ and IL‐17. These latter cell populations are increased, with a concomitant decrease in the CD4⁺CD25⁺CD39⁺ Tregs, in the peripheral blood of patients with renal allograft rejection. We conclude that the ectonucleotidase CD39 is a useful and dynamic lymphocytes surface marker that can be used to identify different peripheral blood T cell‐populations to allow tracking of these in health and disease, as in renal allograft rejection.     

CD4+ T Cells Prevent Skin Autoimmunity During Chronic Autologous Graft-Versus-Host-Disease

CD4 regulatory cells have been postulated to prevent autologous graft-vs.-host disease (GVHD). In order to test this hypothesis, we used BALB/c mice, a strain known to be resistant to autologous GVHD, which had received autologous stem cell transplantation (ASCT) and cyclosporine A (CsA). As expected, ASCT/CsA-treated BALB/c mice did not develop any sign of acute or chronic GVHD. However, depletion of CD4 T cells induced a skin disease with clinical and histological features of alopecia areata (AA), a CD8 T-cell-mediated human autoimmune skin disease. The hair loss in mice developing AA was associated with the infiltration of the skin by activated CD8 T cells. Analysis of the T-cell recovery in ASCT- and ASCT/CsA-treated mice showed that CsA induced an increase in the number of CD4+ 25+ T cells, suggesting that the lack of GVHD in ASCT/CsA treated-mice could be related to the expansion of this CD4 T-cell subset. Collectively these data show that CD4 T cells comprise regulatory cells controlling the onset of autologous GVHD and suggest that the naturally occurring CD4+ 25+ subset may be responsible for this effect.     

Belatacept‐Resistant Rejection Is Associated With CD28+ Memory CD8 T Cells

Recently, newer therapies have been designed to more specifically target rejection in an effort to improve efficacy and limit unwanted toxicity. Belatacept, a CD28‐CD80/86 specific reagent, is associated with superior patient survival and graft function compared with traditional therapy, but its adoption as a mainstay immunosuppressive therapy has been tempered by increased rejection rates. It is essential that the underlying mechanisms associated with this rejection be elucidated before belatacept is more widely used. To that end, we designed a study in a nonhuman primate kidney transplant model where animals were treated with either a belatacept‐ or a tacrolimus‐based immunosuppressive regimen. Interestingly, we found that elevated pretransplant frequencies of CD28⁺CD8⁺T_EMRA cells are associated with rejection on belatacept but not tacrolimus treatment. Further analysis showed that the CD28⁺CD8⁺T_EMRA cells rapidly lose CD28 expression after transplant in those animals that go on to reject with the allograft infiltrate being predominantly CD28^?. These data suggest that CD28⁺ memory T cells may be resistant to belatacept, capable of further differentiation including loss of CD28 expression while maintaining effector function. The unique signaling requirements of CD28⁺ memory T cells provide opportunities for the development of targeted therapies, which may synergize with belatacept to prevent costimulation‐independent rejection.     

Antigen-Specific Suppression by Induced CD4+CD25high Regulatory T Cells in Kidney Recipients

The biology and function of induced CD4⁺CD25^high regulatory T (Treg) cells have not been clarified for their specificity to a foreign antigen. To test whether the regulatory functions of the induced CD4⁺CD25^high Treg cells after transplantation require antigen-specific triggering, we analyzed the capacity of induced CD4⁺CD25^high Treg cells to inhibit the proliferation of conventional CD4⁺CD25^? T cells in response to T-cell receptor stimulation using donor cells or HLA-mismatched third-party cells in vitro. CD4⁺CD25^high Treg cells did not proliferate in response to allogeneic stimulation and suppressed proliferation of the co-cultured autologous CD4⁺CD25^? populations in a dose-dependent manner. The proliferation of CD4⁺CD25^?T cells from the same donor in mixed lymphocyte reactions was significantly inhibited at a 1:8 ratio of conventional T cells:Treg cells: 14,404 ± 673 cpm without CD4⁺CD25^high Treg cells versus 10,781 ± 539 cpm with CD4⁺CD25^high Treg cells P = .01). At the same 1:8 ratio, the proliferation of CD4⁺CD25^? cells derived from major histocompatibility complex–mismatched patients was not significantly inhibited: 14,404 ± 673 cpm without CD4⁺CD25^high Treg cells versus 12,471 ± 709 cpm with CD4⁺CD25^high Treg cells (P = .06). Antigen specificity of the induced CD4⁺CD25^high Treg cells was demonstrated, after transplantation, supporting the use of antigen-specific Treg cells as a therapeutic strategy.     

胃癌患者手术前后CD4+CD25+调节性T细胞的变化

目的 研究胃癌患者手术前、后调节性T细胞(Treg)及FoxP3表达的变化.方法 采用流式细胞术检测20例胃癌患者术前及其中15例接受了手术者术后1周(简称术后)以及15例因胃部不适接受胃镜检查的自愿者(正常对照组)外周血中Treg数量的变化,用RT-PCR法检测Treg的特异性分子标志物FoxP3的转录水平,同时用免疫组织化学法检测胃癌组织中FoxP3蛋白的表达情况.结果 胃癌患者术前外周血中CD4+T细胞中的CD4+ CD25+比例明显高于正常对照组[(19.39±5.58)%比(9.91±3.23)%,P＜0.01],而术后CD4+ CD25+比例较术前明显下降[(13.50±5.93)%比(19.39±5.58)%,P＜0.05].胃癌患者术前外周血中FoxP3转录水平明显高于正常对照组(0.86±0.03比0.64±0.02,P＜0.01),而术后较术前明显下降(0.73±0.04比0.86±0.03,P＜0.05),提示FoxP3转录水平与Treg变化一致.胃癌患者外周血中CD4+T细胞在单个核细胞中的比例与正常对照组相比明显下降(P＜0.01),而手术前、后变化不明显.20例胃癌患者中13例胃癌癌细胞的细胞浆中有不同程度的FoxP3蛋白表达(强阳性2例,中阳性6例,弱阳性5例),7例胃癌患者的胃癌细胞中不表达.结论 Treg可能通过免疫抑制作用在胃癌的发生、发展中发挥作用,肿瘤组织本身可能是引起Treg变化的重要始动因素.     

Presence of Functional Mouse Regulatory CD4+CD25+T Cells in Xenogeneic Neonatal Porcine Thymus-Grafted Athymic Mice

Xenotransplantation with porcine thymus is emerging as a possible means to reconstitute host cellular immunity and to induce immune tolerance in rodents and large animals. However, the presence of regulatory T cells (Treg cells) in this model needs to be determined. We herein demonstrated that efficient repopulation of mouse CD4+CD25+Treg cells was achieved in Balb/c nude mice by grafting neonatal porcine thymic tissue (NP THY). Mouse CD4+CD25+T cells expressed normal levels of Foxp3 in NP THY-grafted nude mice. Furthermore, these CD4+CD25+Treg cells showed significant inhibitory effects on the cell proliferation or interleukin-2 products of syngeneic T cells to alloantigens, Con A or a peptide antigen, although the potent immunosuppressive function might be lower than CD4+CD25+Treg cells in Balb/c mice. CD4+CD25+T cells in NP THY-grafted nude mice showed significantly stronger inhibition on the response to donor porcine antigens of CD4+CD25(-)T cells than CD4+CD25+Treg cells in Balb/c mice. Both CD4+CD25+Treg cells in NP THY-grafted nude and Balb/c mice prevented the development of autoimmune disease mediated by syngeneic CD4+CD25(-)T cells in a similar efficient way in the secondary recipients. These findings provide evidence for the potential involvement of CD4+CD25+Treg cells in keeping self-tolerance and transplant tolerance in this xeno-thymus transplantation model.     

CD4+CD25+调节性T细胞在维持小鼠肝脏移植自发性免疫耐受状态中的作用

目的 探讨CD4+CD25+调节性T细胞在维持小鼠肝脏移植免疫耐受状态中的作用.方法 进行小鼠原位肝脏移植,诱导出移植免疫耐受后,向受体注射抗CD25抗体(PC61)以去除CD4+CD25+T细胞,检测受体内CD4+CD25+T细胞数量及叉状头/翅膀状螺旋转录因子(Foxp3)的表达以确定CD4+CD25+T细胞完全被清除,同时观察受体生存时间.结果 与同种同系小鼠肝脏移植结果 相似,同种异系肝脏移植小鼠的生存时间亦均超过70 d.移植免疫耐受诱导后,PC61不同注射方案均能完全去除受体小鼠肝脏、脾脏及血液中的CD4+CD25+T细胞,且移植肝脏中Foxp3 mRNA的表达也明显降低,表明完全去除了CD4+CD25+调节性T细胞,但肝脏移植动物生存时间并未受到影响.结论 CD4+CD25+调节性T细胞对于小鼠肝脏移植自发性免疫耐受的维持并非必需.     

Allopeptide-Specific CD4+ T Cells Facilitate the Differentiation of Directly Alloreactive Graft-Infiltrating CD8+ T Cells

To investigate the mechanism of CD4(+) T-cell help during the activation and differentiation of directly alloreactive CD8(+) T cells, we examined the development of obliterative airways disease (OAD) following transplantation of airways into fully mismatched recipient mice deficient in CD4(+) T cells. BALB/c trachea allografts became fibrosed significantly less frequently in B6 CD4(-/-) recipients as compared to wildtype controls. Furthermore, class I-directed cytotoxicity failed to develop in the absence of CD4(+) T cells. The infiltration of graft tissue by primed L(d)-specific directly alloreactive 2C CD8(+) T cells was not found to depend on the presence of CD4(+) T cells. Nevertheless, graft-infiltrating 2C CD8(+) T cells failed to express CD69 and granzyme B when CD4(+) T-cell help was unavailable. Importantly, reconstitution of B6 CD4(-/-) recipient mice with graft peptide-specific TCR-Tg CD4(+) T cells (OT-II or TEa) capable of recognizing antigen only on recipient APC allowed for full expression of CD69 and granzyme B by the directly alloreactive CD8(+) T cells and restored the capacity of recipients to reject their allografts. These results demonstrate that indirectly alloreactive CD4(+) T cells ensure the optimal activation and differentiation of graft-infiltrating directly alloreactive CD8(+) T cells independent of donor APC recognition.     

Selective Targeting of Human Alloresponsive CD8+ Effector Memory T Cells Based on CD2 Expression

Costimulation blockade (CoB), specifically CD28/B7 inhibition with belatacept, is an emerging clinical replacement for calcineurin inhibitor‐based immunosuppression in allotransplantation. However, there is accumulating evidence that belatacept incompletely controls alloreactive T cells that lose CD28 expression during terminal differentiation. We have recently shown that the CD2‐specific fusion protein alefacept controls costimulation blockade‐resistant allograft rejection in nonhuman primates. Here, we have investigated the relationship between human alloreactive T cells, costimulation blockade sensitivity and CD2 expression to determine whether these findings warrant potential clinical translation. Using polychromatic flow cytometry, we found that CD8⁺ effector memory T cells are distinctly high CD2 and low CD28 expressors. Alloresponsive CD8⁺CD2^hiCD28^? T cells contained the highest proportion of cells with polyfunctional cytokine (IFNγ, TNF and IL‐2) and cytotoxic effector molecule (CD107a and granzyme B) expression capability. Treatment with belatacept in vitro incompletely attenuated allospecific proliferation, but alefacept inhibited belatacept‐resistant proliferation. These results suggest that highly alloreactive effector T cells exert their late stage functions without reliance on ongoing CD28/B7 costimulation. Their high CD2 expression increases their susceptibility to alefacept. These studies combined with in vivo nonhuman primate data provide a rationale for translation of an immunosuppression regimen pairing alefacept and belatacept to human renal transplantation.     

CD154+ Graft Antigen-Specific CD4+ T Cells are Sufficient for Chronic Rejection of Minor Antigen Incompatible Heart Grafts

We used a defined model system to address the role of minor histocompatibility antigen-specific CD4+ T cells in chronic rejection. The coronary arteries of vascularized heart grafts expressing the model antigen ovalbumin developed intimal hyperplasia in normal recipients and those lacking CD8+ T cells but not in those lacking CD4+ T cells. Furthermore, purified ovalbumin-specific CD4+ T cells from T-cell antigen receptor transgenic mice caused intimal hyperplasia in ovalbumin-expressing heart grafts in lymphocyte-deficient mice. The graft antigen-specific CD4+ T cells only caused intimal hyperplasia when expressing CD154 and were found in the intima of the affected coronary arteries along with CD40+ cells, CD11c+ dendritic cells and CD11b+, Gr-1+ monocytes. These results show that minor histocompatibility antigen-specific CD4+ T cells are required to cause the classical vascular changes of chronic rejection. They are capable of doing so without contributions from other lymphocytes, and may cause intimal hyperplasia by using CD154 to stimulate other non-lymphoid cells in the intima.     

Variation of CD4+CD25+Foxp3+ Regulatory T Cells and Th17 Cells in the Peripheral Blood of Human Liver Allograft Patients With Long-term Survival

Background

Monitoring of peripheral blood (PB) lymphocyte subpopulation counts may be useful to underlie immune status after liver transplantation (LT). We aimed at exploring the variation of regulatory cells and Th17 in the PB of liver allograft patients with long-term survival.

Delayed Anti‐CD3 Therapy Results in Depletion of Alloreactive T Cells and the Dominance of Foxp3+CD4+ Graft Infiltrating Cells

The engineered Fc‐nonbinding (crystallizable fragment‐nonbinding) CD3 antibody has lower mitogenicity and a precise therapeutic window for disease remission in patients with type 1 diabetes. Before anti‐CD3 can be considered for use in transplantation, the most effective timing of treatment relative to transplantation needs to be elucidated. In this study anti‐CD3F(ab′)₂ fragments or saline were administered intravenously for 5 consecutive days (early: d1–3 or delayed: d3–7) to mice transplanted with a cardiac allograft (H2^b‐to‐H2^k; d0). Survival of allografts was prolonged in mice treated with the early protocol (MST = 48 days), but most were rejected by d100. In contrast, in mice treated with the delayed protocol allografts continued to survive long term. The delayed protocol significantly inhibited donor alloreactivity at d30 as compared to the early protocol. A marked increase in Foxp3⁺ T cells (50.3 ± 1.6%) infiltrating the allografts in mice treated with the delayed protocol was observed (p < 0.0001 vs. early (24.9 ± 2.1%)) at d10; a finding that was maintained in the accepted cardiac allografts at d100. We conclude that the timing of treatment with anti‐CD3 therapy is critical for inducing long‐term graft survival. Delaying administration effectively inhibits the alloreactivity and promotes the dominance of intragraft Foxp3⁺ T cells allowing long‐term graft acceptance.     

Allospecific CD154+ T Cells Associate with Rejection Risk After Pediatric Liver Transplantation

Antigen-specific T cells, which express CD154 rapidly, but remain untested in alloimmunity, were measured with flow cytometry in 16-h MLR of 58 identically-immunosuppressed children with liver transplantation (LTx), to identify Rejectors (who had experienced biopsy-proven rejection within 60 days posttransplantation). Thirty-one children were sampled once, cross-sectionally. Twenty-seven children were sampled longitudinally, pre-LTx, and at 1–60 and 61–200 days after LTx. Results were correlated with proliferative alloresponses measured by CFSE-dye dilution (n = 23), and CTLA4, a negative T-cell costimulator, which antagonizes CD154-mediated effects (n = 31). In cross-sectional observations, logistic regression and leave-one-out cross-validation identified donor-specific, CD154 + T-cytotoxic (Tc)-memory cells as best associated with rejection outcomes. In the longitudinal cohort, (1) the association between CD154 + Tc-memory cells and rejection outcomes was replicated with sensitivity/specificity 92.3%/84.6% for observations at 1–60 days, and (2) elevated pre-LTx CD154 + Tc-memory cell responses were associated with significantly increased incidence (p = 0.02) and hazard (HR = 7.355) of rejection in survival/proportional hazard analysis. CD154 expression correlated with proliferative alloresponses (r = 0.835, p = 7.1e-07), and inversely with CTLA4 expression of allospecific CD154 + Tc-memory cells (r =−0.706, p = 3.0e-05). Allospecific CD154 + T-helper-memory cells, not CD154 + Tc-memory, were inhibited by increasing Tacrolimus concentrations (p = 0.026). Collectively, allospecific CD154 + T cells provide an estimate of rejection risk in children with LTx.