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1.
Ex Vivo Costimulatory Blockade to Generate Regulatory T Cells From Patients Awaiting Kidney Transplantation 下载免费PDF全文
E. C. Guinan G. A. Cole W. H. Wylie R. H. Kelner K. J. Janec H. Yuan J. Oppatt L. L. Brennan L. A. Turka J. Markmann 《American journal of transplantation》2016,16(7):2187-2195
Short‐term outcomes of kidney transplantation have improved dramatically, but chronic rejection and regimen‐related toxicity continue to compromise overall patient outcomes. Development of regulatory T cells (Tregs) as a means to decrease alloresponsiveness and limit the need for pharmacologic immunosuppression is an active area of preclinical and clinical investigation. Nevertheless, the immunomodulatory effects of end‐stage renal disease on the efficacy of various strategies to generate and expand recipient Tregs for kidney transplantation are incompletely characterized. In this study, we show that Tregs can be successfully generated from either freshly isolated or previously cryopreserved uremic recipient (responder) and healthy donor (stimulator) peripheral blood mononuclear cells using the strategy of ex vivo costimulatory blockade with belatacept during mixed lymphocyte culture. Moreover, these Tregs maintain a CD3+CD4+CD25+CD127lo surface phenotype, high levels of intracellular FOXP3 and significant demethylation of the FOXP3 Treg‐specific demethylation region on allorestimulation with donor stimulator cells. These data support evaluation of this simple, brief Treg production strategy in clinical trials of mismatched kidney transplantation. 相似文献
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Uremia‐Associated Premature Aging of T Cells Does Not Predict Infectious Complications After Renal Transplantation 下载免费PDF全文
B. Dedeoglu R. W. J. Meijers M. Klepper D. A. Hesselink C. C. Baan N. H. R. Litjens M. G. H. Betjes 《American journal of transplantation》2016,16(8):2324-2333
Patients with end‐stage renal disease have prematurely aged T cell systems. We tested whether T cell aging parameters were associated with the risk of infections after renal transplantation (RTx). We studied 188 patients over 1 year. Peripheral T cells were analyzed before and at 3 and 6 mo after RTx for frequency of recent thymic emigrants, relative telomere length and differentiation status. These parameters were related to the occurrence of opportunistic and serious infections. Overall, 84 patients developed an infection. In this group, 50 developed an opportunistic infection and 53 developed a serious infection. T cell aging parameters assessed before RTx were not associated with infection risk. The memory T cells showed a decrease within the first 3 mo in both groups (p < 0.001). The CD4+ memory T cells increased between 3 and 6 mo within the infection group (p = 0.015). The number of CD8+ memory T cells increased in both groups (p < 0.001) but reached baseline levels only in the infection group. In the infection group, the CD8+CD28null T cell percentage increased between 3 and 6 mo (p = 0.024), tending to be higher than at baseline (p = 0.061). These differences in post‐RTx dynamics resulted from infections. Parameters of uremia‐associated premature aging of peripheral T cells do not predict posttransplant infections. 相似文献
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Role of Bone Marrow Maturity,Insulin‐Like Growth Factor 1 Receptor,and Forkhead Box Protein N1 in Thymic Involution and Rejuvenation 下载免费PDF全文
A. Shimizu M. Sekijima R. Yamada I. M. Hanekamp J. S. Hanekamp T. A. Cormack S. G. Moran A. Kawai D. H. Sachs K. Yamada 《American journal of transplantation》2016,16(10):2877-2891
Thymic involution is associated with age‐related changes of the immune system. Utilizing our innovative technique of transplantation of a thymus as an isolated vascularized graft in MHC‐inbred miniature swine, we have previously demonstrated that aged thymi are rejuvenated after transplantation into juvenile swine. Here we have studied the role of insulin‐like growth factor (IGF) and forkhead‐box protein‐N1 (FOXN1) as well as bone marrow (BM) in thymic rejuvenation and involution. We examined thymic rejuvenation and involution by means of histology and flow cytometry. Thymic function was assessed by the ability to induce tolerance of allogeneic kidneys. Aged thymi were rejuvenated in a juvenile environment, and successfully induced organ tolerance, while juvenile thymi in aged recipients involuted and had a limited ability to induce tolerance. However, juvenile BM inhibited the involution process of juvenile thymi in aged recipients. An elevated expression of both FOXN1 and IGF1 receptors (IGF‐1R) was observed in juvenile thymi and rejuvenated thymi. Juvenile BM plays a role in promoting the local thymic milieu as indicated by its ability to inhibit thymic involution in aged animals. The expression of FOXN1 and IGF‐1R was noted to increase under conditions that stimulated rejuvenation, suggesting that these factors are involved in thymic recovery. 相似文献
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Control of Immune Response to Allogeneic Embryonic Stem Cells by CD3 Antibody–Mediated Operational Tolerance Induction 下载免费PDF全文
D. Calderon M. Prot S. You C. Marquet V. Bellamy P. Bruneval F. Valette P. de Almeida J. C. Wu M. Pucéat P. Menasché L. Chatenoud 《American journal of transplantation》2016,16(2):454-467
Implantation of embryonic stem cells (ESCs) and their differentiated derivatives into allogeneic hosts triggers an immune response that represents a hurdle to clinical application. We established in autoimmunity and in transplantation that CD3 antibody therapy induces a state of immune tolerance. Promising results have been obtained with CD3 antibodies in the clinic. In this study, we tested whether this strategy can prolong the survival of undifferentiated ESCs and their differentiated derivatives in histoincompatible hosts. Recipients of either mouse ESC–derived embryoid bodies (EBs) or cardiac progenitors received a single short tolerogenic regimen of CD3 antibody. In immunocompetent mice, allogeneic EBs and cardiac progenitors were rejected within 20–25 days. Recipients treated with CD3 antibody showed long‐term survival of implanted cardiac progenitors or EBs. In due course, EBs became teratomas, the growth of which was self‐limited. Regulatory CD4+FoxP3+ T cells and signaling through the PD1/PDL1 pathway played key roles in the CD3 antibody therapeutic effect. Gene profiling emphasized the importance of TGF‐β and the inhibitory T cell coreceptor Tim3 to the observed effect. These results demonstrate that CD3 antibody administered alone promotes prolonged survival of allogeneic ESC derivatives and thus could prove useful for enhancing cell engraftment in the absence of chronic immunosuppression. 相似文献
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Prevention of Allograft Rejection by Use of Regulatory T Cells With an MHC‐Specific Chimeric Antigen Receptor 下载免费PDF全文
F. Noyan K. Zimmermann M. Hardtke‐Wolenski A. Knoefel E. Schulde R. Geffers M. Hust J. Huehn M. Galla M. Morgan A. Jokuszies M. P. Manns E. Jaeckel 《American journal of transplantation》2017,17(4):917-930
CD4+CD25highFOXP3+ regulatory T cells (Tregs) are involved in graft‐specific tolerance after solid organ transplantation. However, adoptive transfer of polyspecific Tregs alone is insufficient to prevent graft rejection even in rodent models, indicating that graft‐specific Tregs are required. We developed a highly specific chimeric antigen receptor that recognizes the HLA molecule A*02 (referred to as A2‐CAR). Transduction into natural regulatory T cells (nTregs) changes the specificity of the nTregs without alteration of their regulatory phenotype and epigenetic stability. Activation of nTregs via the A2‐CAR induced proliferation and enhanced the suppressor function of modified nTregs. Compared with nTregs, A2‐CAR Tregs exhibited superior control of strong allospecific immune responses in vitro and in humanized mouse models. A2‐CAR Tregs completely prevented rejection of allogeneic target cells and tissues in immune reconstituted humanized mice in the absence of any immunosuppression. Therefore, these modified cells have great potential for incorporation into clinical trials of Treg‐supported weaning after allogeneic transplantation. 相似文献
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Nonchimeric HLA‐Identical Renal Transplant Tolerance: Regulatory Immunophenotypic/Genomic Biomarkers 下载免费PDF全文
D. R. Salomon S. M. Kurian J. J. Friedewald L. Gallon I. Konieczna A. R. Tambur J. Charette J. Levitsky C. Jie Y. S. Kanwar M. M. Abecassis J. Miller 《American journal of transplantation》2016,16(1):221-234
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S. Chandran Q. Tang M. Sarwal Z. G. Laszik A. L. Putnam K. Lee J. Leung V. Nguyen T. Sigdel E. C. Tavares J. Y. C. Yang M. Hellerstein M. Fitch J. A. Bluestone F. Vincenti 《American journal of transplantation》2017,17(11):2945-2954
Early subclinical inflammation in kidney transplants is associated with later graft fibrosis and dysfunction. Regulatory T cells (Tregs) can reverse established inflammation in animal models. We conducted a pilot safety and feasibility trial of autologous Treg cell therapy in three kidney transplant recipients with subclinical inflammation noted on 6‐month surveillance biopsies. Tregs were purified from peripheral blood and polyclonally expanded ex vivo using medium containing deuterated glucose to label the cells. All patients received a single infusion of ~320 × 106 (319, 321, and 363.8 × 106) expanded Tregs. Persistence of the infused Tregs was tracked. Graft inflammation was monitored with follow‐up biopsies and urinary biomarkers. Nearly 1 × 109 (0.932, 0.956, 1.565 × 109) Tregs were successfully manufactured for each patient. There were no infusion reactions or serious therapy‐related adverse events. The infused cells demonstrated patterns of persistence and stability similar to those observed in non‐immunosuppressed subjects receiving the same dose of Tregs. Isolation and expansion of Tregs is feasible in kidney transplant patients on immunosuppression. Infusion of these cells was safe and well tolerated. Future trials will test the efficacy of polyclonal and donor alloantigen‐reactive Tregs for the treatment of inflammation in kidney transplants. 相似文献
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The Leuven Immunomodulatory Protocol Promotes T‐Regulatory Cells and Substantially Prolongs Survival After First Intestinal Transplantation 下载免费PDF全文
L. J. Ceulemans F. Braza D. Monbaliu I. Jochmans G. De Hertogh J. Du Plessis M.‐P. Emonds H. Kitade M. Kawai Y. Li X. Zhao T. Koshiba B. Sprangers S. Brouard M. Waer J. Pirenne 《American journal of transplantation》2016,16(10):2973-2985
Intestinal transplantation (ITx) remains challenged by frequent/severe rejections and immunosuppression‐related complications (infections/malignancies/drug toxicity). We developed the Leuven Immunomodulatory Protocol (LIP) in the lab and translated it to the clinics. LIP consists of experimentally proven maneuvers, destined to promote T‐regulatory (Tregs)‐dependent graft‐protective mechanisms: donor‐specific blood transfusion (DSBT); avoiding high‐dose steroids/calcineurin‐inhibitors; and minimizing reperfusion injury and endotoxin translocation. LIP was tested in 13 consecutive ITx from deceased donors (2000–2014) (observational cohort study). Recipient age was 37 years (2.8–57 years). Five‐year graft/patient survival was 92%. One patient died at 9 months due to aspergillosis, another at 12 years due to nonsteroidal anti‐inflammatory drug–induced enteropathy. Early acute rejection (AR) developed in two (15%); late AR in three (23%); all were reversible. No chronic rejection (CR) occurred. No malignancies developed and estimated glomerular filtration rate remained stable post‐Tx. At last follow‐up (3.5 years [0.5–12.5 years]), no donor‐specific antibodies were detected and 11 survivors were total parenteral nutrition free with a Karnofsky score >90% in 8 recipients (follow‐up >1 years). A high frequency of circulating CD4+CD45RA‐Foxp3hi memory Tregs was found (1.8% [1.39–2.21]), comparable to tolerant kidney transplant (KTx) recipients and superior to stable immunosuppression (IS)‐KTx, KTx with CR, and healthy volunteers. In this ITx cohort we show that DSBT in a low‐inflammatory/pro‐regulatory environment activates Tregs at levels similar to tolerant‐KTx, without causing sensitization. LIP limits rejection under reduced IS and thereby prolongs long‐term survival to an extent not previously attained after ITx. 相似文献
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Exhaustion of lymphocyte function through chronic exposure to a high load of foreign antigen is well established for chronic viral infection and antitumor immunity and has been found to be associated with a distinct molecular program and characteristic cell surface phenotype. Although exhaustion has most commonly been studied in the context of CD8 viral responses, recent studies indicate that chronic antigen exposure may affect B cells, NK cells and CD4 T cells in a parallel manner. Limited information is available regarding the extent of lymphocyte exhaustion development in the transplant setting and its impact on anti–graft alloreactivity. By analogy to the persistence of a foreign virus, the large mass of alloantigen presented by an allograft in chronic residence could provide an ideal setting for exhausting donor‐reactive T cells. The extent of T cell exhaustion occurring with various allografts, the kinetics of its development, whether exhaustion is influenced positively or negatively by different immunosuppressants, and the impact of exhaustion on graft survival and tolerance development remains a fertile area for investigation. Harnessing or encouraging the natural processes of exhaustion may provide a novel means to promote graft survival and transplantation tolerance. 相似文献
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Kidney‐Induced Cardiac Allograft Tolerance in Miniature Swine is Dependent on MHC‐Matching of Donor Cardiac and Renal Parenchyma 下载免费PDF全文
M. L. Madariaga S. G. Michel G. M. La Muraglia II M. Sekijima V. Villani D. A. Leonard H. J. Powell J. M. Kurtz E. A. Farkash R. B. Colvin J. S. Allan C. L. Cetrulo Jr C. A. Huang D. H. Sachs K. Yamada J. C. Madsen 《American journal of transplantation》2015,15(6):1580-1590
Kidney allografts possess the ability to enable a short course of immunosuppression to induce tolerance of themselves and of cardiac allografts across a full‐MHC barrier in miniature swine. However, the renal element(s) responsible for kidney‐induced cardiac allograft tolerance (KICAT) are unknown. Here we investigated whether MHC disparities between parenchyma versus hematopoietic‐derived “passenger” cells of the heart and kidney allografts affected KICAT. Heart and kidney allografts were co‐transplanted into MHC‐mismatched recipients treated with high‐dose tacrolimus for 12 days. Group 1 animals (n = 3) received kidney and heart allografts fully MHC‐mismatched to each other and to the recipient. Group 2 animals (n = 3) received kidney and heart allografts MHC‐matched to each other but MHC‐mismatched to the recipient. Group 3 animals (n = 3) received chimeric kidney allografts whose parenchyma was MHC‐mismatched to the donor heart. Group 4 animals (n = 3) received chimeric kidney allografts whose passenger leukocytes were MHC‐mismatched to the donor heart. Five of six heart allografts in Groups 1 and 3 rejected <40 days. In contrast, heart allografts in Groups 2 and 4 survived >150 days without rejection (p < 0.05). These data demonstrate that KICAT requires MHC‐matching between kidney allograft parenchyma and heart allografts, suggesting that cells intrinsic to the kidney enable cardiac allograft tolerance. 相似文献
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High Incidence of Xenogenic Bone Marrow Engraftment in Pig‐to‐Baboon Intra‐Bone Bone Marrow Transplantation 下载免费PDF全文
M. Tasaki I. Wamala A. Tena V. Villani M. Sekijima V. Pathiraja R. A. Wilkinson S. Pratts T. Cormack E. Clayman J. S. Arn A. Shimizu J. A. Fishman D. H. Sachs K. Yamada 《American journal of transplantation》2015,15(4):974-983
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M. K. Nelsen K. S. Beard R. J. Plenter R. M. Kedl E. T. Clambey R. G. Gill 《American journal of transplantation》2017,17(7):1742-1753
Several approaches successfully achieve allograft tolerance in preclinical models but are challenging to translate into clinical practice. Many clinically relevant factors can attenuate allograft tolerance induction, including intrinsic genetic resistance, peritransplant infection, inflammation, and preexisting antidonor immunity. The prevailing view for immune memory as a tolerance barrier is that the host harbors memory cells that spontaneously cross‐react to donor MHC antigens. Such preexisting “heterologous” memory cells have direct reactivity to donor cells and resist most tolerance regimens. In this study, we developed a model system to determine if an alternative form of immune memory could also block tolerance. We posited that host memory T cells could potentially respond to donor‐derived non‐MHC antigens, such as latent viral antigens or autoantigens, to which the host is immune. Results show that immunity to a model nonself antigen, ovalbumin (OVA), can dramatically disrupt tolerance despite undetectable initial reactivity to donor MHC antigens. Importantly, this blockade of tolerance was CD8+ T cell–dependent and required linked antigen presentation of alloantigens with the test OVA antigen. As such, this pathway represents an unapparent, or “incognito,” form of immunity that is sufficient to prevent tolerance and that can be an unforeseen additional immune barrier to clinical transplant tolerance. 相似文献
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Chiara Cantarelli Andrea Angeletti Paolo Cravedi 《American journal of transplantation》2019,19(9):2407-2414
Erythropoietin (EPO) is a glycoprotein produced mainly by the adult kidney in response to hypoxia and is the crucial regulator of red blood cell production. EPO receptors (EPORs), however, are not confined to erythroid cells, but are expressed by many organs including the heart, brain, retina, pancreas, and kidney, where they mediate EPO‐induced, erythropoiesis‐independent, tissue‐protective effects. Some of these tissues also produce and locally release small amounts of EPO in response to organ injury as a mechanism of self‐repair. Growing evidence shows that EPO possesses also important immune‐modulating effects. Monocytes can produce EPO, and autocrine EPO/EPOR signaling in these cells is crucial in maintaining immunologic self‐tolerance. New data in mice and humans also indicate that EPO has a direct inhibitory effect on effector/memory T cells, while it promotes formation of regulatory T cells. This review examines the nonerythropoietic effects of EPO, with a special emphasis on its modulating activity on innate immune cells and T cells and on how it affects transplant outcomes. 相似文献
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V. Pathiraja V. Villani M. Tasaki A. J. Matar R. Duran‐Struuck R. Yamada S. G. Moran E. S. Clayman J. Hanekamp A. Shimizu D. H. Sachs C. A. Huang K. Yamada 《American journal of transplantation》2017,17(1):91-102
We previously reported that transplantation (Tx) of prevascularized donor islets as composite islet‐kidneys (IK) reversed diabetic hyperglycemia in both miniature swine and baboons. In order to enhance this strategy's potential clinical applicability, we have now combined this approach with hematopoietic stem cell (HSC) Tx in an attempt to induce tolerance in nonhuman primates. IKs were prepared by isolating islets from 70% partial pancreatectomies and injecting them beneath the autologous renal capsule of five rhesus monkey donors at least 3 months before allogeneic IK Tx. HSC Tx was performed after mobilization and leukapheresis of the donors and conditioning of the recipients with total body irradiation, T cell depletion, and cyclosporine. One IK was harvested for histologic analysis and four were transplanted into diabetic recipients. IK Tx was performed either 20–22 (n = 3) or 208 (n = 1) days after HSC Tx. All animals accepted IKs without rejection. All recipients required >20 U/day insulin before IK Tx to maintain <200 mg/dL, whereas after IK Tx, three animals required minimal doses of insulin (1–3 U/day) and one animal was insulin free. These results constitute a proof‐of‐principle that this IK tolerance strategy may provide a cure for both end‐stage renal disease and diabetes without the need for immunosuppression. 相似文献
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Tracking of TCR‐Transgenic T Cells Reveals That Multiple Mechanisms Maintain Cardiac Transplant Tolerance in Mice 下载免费PDF全文
M. L. Miller M. D. Daniels T. Wang Y. Wang J. Xu D. Yin M.‐L. Alegre 《American journal of transplantation》2016,16(10):2854-2864
Solid organ transplantation tolerance can be achieved following select transient immunosuppressive regimens that result in long‐lasting restraint of alloimmunity without affecting responses to other antigens. Transplantation tolerance has been observed in animal models following costimulation or coreceptor blockade therapies, and in a subset of patients through induction protocols that include donor bone marrow transplantation, or following withdrawal of immunosuppression. Previous data from our lab and others have shown that proinflammatory interventions that successfully prevent the induction of transplantation tolerance in mice often fail to break tolerance once it has been stably established. This suggests that established tolerance acquires resilience to proinflammatory insults, and prompted us to investigate the mechanisms that maintain a stable state of robust tolerance. Our results demonstrate that only a triple intervention of depleting CD25+ regulatory T cells (Tregs), blocking programmed death ligand‐1 (PD‐L1) signals, and transferring low numbers of alloreactive T cells was sufficient to break established tolerance. We infer from these observations that Tregs and PD‐1/PD‐L1 signals cooperate to preserve a low alloreactive T cell frequency to maintain tolerance. Thus, therapeutic protocols designed to induce multiple parallel mechanisms of peripheral tolerance may be necessary to achieve robust transplantation tolerance capable of maintaining one allograft for life in the clinic. 相似文献
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Renal Operational Tolerance Is Associated With a Defect of Blood Tfh Cells That Exhibit Impaired B Cell Help 下载免费PDF全文
A. Chenouard M. Chesneau L. Bui Nguyen S. Le Bot M. Cadoux E. Dugast C. Paul S. Malard‐Castagnet S. Ville P. Guérif J.‐P. Soulillou N. Degauque R. Danger M. Giral S. Brouard 《American journal of transplantation》2017,17(6):1490-1501
Renal operationally tolerant patients (TOL) display a defect in B cell differentiation, with a deficiency in plasma cells. Recently described, T follicular helper (Tfh) cells play a critical role in B cell differentiation. We analyzed blood Tfh subsets in TOL and transplanted patients with stable graft function under immunosuppression (STA). We observed a reduced proportion of blood activated and highly functional Tfh subsets in TOL, without affecting Tfh absolute numbers. Functionally, Tfh cells from TOL displayed a modified gene expression profile, failed to produce interleukin‐21, and were unable to induce IgG production by naive B cells. This Tfh defect is linked to a low incidence of postgraft de novo donor‐specific antibody (dnDSA) immunization, suggesting that the lack of Tfh cells in TOL may induce a protolerogenic environment with reduced risk of developing dnDSA. Finally, we showed that elevated Tfh in STA precedes the occurrence of dnDSA during an alloresponse. These data provide new insights into the mechanisms of antibody response in operational tolerance. Disrupted homeostasis and impaired Tfh function in TOL could lead to a reduced risk of developing dnDSA and suggest a predictive role of blood Tfh cells on the occurrence of dnDSA in transplant recipients. 相似文献
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G. Andreola M. Chittenden J. Shaffer A. B. Cosimi T. Kawai P. Cotter S. A. LoCascio T. Morokata B. R. Dey N. T. Tolkoff‐Rubin F. Preffer T. Bonnefoix K. Kattleman T. R. Spitzer D. H. Sachs M. Sykes 《American journal of transplantation》2011,11(6):1236-1247
We recently reported long‐term organ allograft survival without ongoing immunosuppression in four of five patients receiving combined kidney and bone marrow transplantation from haploidentical donors following nonmyeloablative conditioning. In vitro assays up to 18 months revealed donor‐specific unresponsiveness. We now demonstrate that T cell recovery is gradual and is characterized by memory‐type cell predominance and an increased proportion of CD4+CD25+CD127?FOXP3+ Treg during the lymphopenic period. Complete donor‐specific unresponsiveness in proliferative and cytotoxic assays, and in limiting dilution analyses of IL‐2‐producing and cytotoxic cells, developed and persisted for the 3‐year follow‐up in all patients, and extended to donor renal tubular epithelial cells. Assays in two of four patients were consistent with a role for a suppressive tolerance mechanism at 6 months to 1 year, but later (≥18 months) studies on all four patients provided no evidence for a suppressive mechanism. Our studies demonstrate, for the first time, long‐term, systemic donor‐specific unresponsiveness in patients with HLA‐mismatched allograft tolerance. While regulatory cells may play an early role, long‐term tolerance appears to be maintained by a deletion or anergy mechanism. 相似文献