KIR gene and KIR ligand analysis to predict graft rejection after renal transplantation

BACKGROUND: The identification of transplant patients at high risk for rejection after reduction of immunosuppression would allow minimization of immunosuppression and avoidance of side effects in low-risk patients. Next to T cells, innate natural killer (NK) cells may contribute to graft rejection. NK cell activation depends on the balance between activating and inhibitory signals, delivered by self-human leukocyte antigens (HLA) through binding of killer-cell immunoglobulin receptors (KIR). In transplantation, KIR and/or HLA mismatching may lead to NK cell activation. METHODS: In this study, we have evaluated whether acute rejection after reduction of immunosuppression after renal transplantation was associated with peripheral blood NK cell frequencies or with predicted NK cell alloreactivity based on KIR gene and ligand analysis. HLA and KIR genotyping was used to analyze the presence of single KIR genes and haplotypes, and to predict NK cell alloreactivity based on the "missing self" and "missing ligand" hypothesis. NK cell frequencies were analyzed using flow cytometry. RESULTS: No association was found between NK cell alloreactivity based on KIR gene analysis or peripheral blood NK cell subset frequencies and the occurrence of acute rejection after reduction of immunosuppression. CONCLUSIONS: Our data suggest that in a setting where immunosuppression is reduced, prior analysis of NK cell reactivity cannot identify patients at risk for subsequent graft rejection.     

KIR/HLA ligand incompatibility in kidney transplantation

BACKGROUND: The polymorphic family of killer-cell immunoglobulin-like receptors (KIRs) consists of activating and inhibitory receptors expressed by natural killer (NK) cells and effector T cells that recognize human leukocyte antigen (HLA) class I ligands. It has been suggested that KIR/HLA incompatibility exerts beneficial effects in hematopoietic stem cell transplantation. METHODS: To elucidate whether certain receptor-ligand combinations between recipient KIR and donor HLA antigens lead to enhanced alloreactivity of NK cells associated with acute rejection (aRx) after kidney transplantation, we analyzed the entirety of matches/mismatches between KIR genes and known HLA ligands for aRx patients (n=105) compared to patients with stable renal function (n=119). RESULTS: Whereas HLA-C ligand incompatibility between donor and recipient has no influence on aRx, grafts derived from donors homozygous for HLA-C group 2 alleles seem to demonstrate a better outcome (P=0.052). Additionally, a higher number of inhibitory receptors in the recipient's genotype (P=0.042), a significant higher number of matches for the receptors KIR2DL2/DS2 (P=0.004), as well as a higher number of mismatches for KIR2DL3 (P=0.014) could be observed for patients with stable renal function. CONCLUSION: Our data illustrate that certain KIR/HLA class I ligand combinations between donor and recipient might influence graft short-term outcome after renal transplantation.     

The association between killer‐cell immunoglobulin‐like receptor (KIR) and KIR ligand genotypes and the likelihood of BK virus replication after kidney transplantation

BK virus is a common opportunistic post‐transplantation viral infection. Although some risk factors have been studied in this context, the contribution of NK cells has not been assessed in detail. In a group of kidney transplant recipients, we studied the association between (i) the likelihood of BK virus replication during the two‐year period after kidney transplantation and (ii) the genotypes of the killer cell immunoglobulin‐like receptor (KIR) repertoire and their human leukocyte antigen (HLA) ligands. Other clinical factors (such as defective organ recovery and immunosuppressive treatment) were also assessed. BK virus replication was observed in 43 of the 103 recipients (41%). Patients with BK virus replication in the plasma were more likely to display defective organ recovery in the first seven days post‐transplantation. BK virus replication was not associated with Missing KIR ligands. However, BK virus replication was more frequent in patients with responsive NK cells (i.e. when a ligand for activating KIRs was not homozygous in the recipient and present in the donor). Our results suggest that defective organ recovery and the recipient's activating KIR repertoire may be related (depending on HLA ligands present in the couple recipient / donor) to the reactivation of BK virus replication after kidney transplantation.     

The impact of donor natural killer cell alloreactivity on allogeneic hematopoietic transplantation

Although natural killer (NK) cells are triggered to kill by many activating receptors, lysis of autologous cells is blocked by inhibitory receptors (called Killer cell Ig-like receptors or KIRs) which recognize epitopes shared by certain major histocompatibility complex (MHC) class I allele groups (called KIR ligands). As these inhibitory receptors are clonally distributed, they constituted a repertoire containing different allospecificities. Thus, the NK cells in the repertoire are lytic against allogeneic targets that do not express their inhibitory KIR ligands. In hematopoietic human-leukocyte-antigen (HLA)-haplotype mismatched transplantation, donor-vs-recipient alloreactive NK cells improve engraftment, decrease the incidence of leukemia relapse and do not cause Graft-vs-Host disease (GvHD). Pre-transplant molecular high-resolution HLA of recipient and donor, KIR genotyping of the donor and direct assessment of the donor NK repertoire identify donors with the potential for donor-vs-recipient NK cell alloreactivity.     

Predictive parameters for in vivo alloreactivity

Despite optimal HLA matching and a negative serological crossmatch, confrontation with allogeneic cells by organ- or stem-cell transplantation or platelet transfusion, can lead to an alloimmune response resulting in graft rejection, graft vs. host disease or platelet refractoriness. It would be attractive to be able to select beforehand those donor/recipient combinations, that do not lead to a destructive alloimmune response and exclude transplantation or transfusion with donors, that induce a strong alloimmune reaction. Many predictive parameters have been identified on the basis of retrospective analysis of graft survival data, and the results of in vitro tests to measure T and B cell alloreactivity. However, most of these parameters have shown to be relevant when a statistical analysis is performed on the population level but do not have a direct impact for the individual patient. An exception is a molecularly based algorithm, called HLA matchmaker, which seems to predict which HLA mismatches do not lead to alloantibody formation in a particular individual. Prediction of T cell alloreactivity is more difficult and will need the development of additional in vitro tools or adaptation of the HLA matchmaker program. Although the direct clinical implication of NK cell mediated allorecognition is not clear yet, this may be a complicating factor when establishing solid parameters for the prediction of an alloimmune reaction in vivo.     

KIR‐Ligand Mismatches Are Associated With Reduced Long‐Term Graft Survival in HLA‐Compatible Kidney Transplantation

Natural killer (NK) cells are cytotoxic lymphocytes of the innate immune system with the ability to detect HLA class I disparities via killer‐cell immunoglobulin‐like receptors (KIR). To test whether such KIR‐ligand mismatches contribute to the rejection of human solid allografts, we did a retrospective cohort study of 397 HLA‐DR‐compatible kidney transplantations and determined the KIR and HLA genotypes of recipients and the HLA genotypes of donors. In transplantations compatible for HLA‐A, HLA‐B and HLA‐DR (n = 137), in which a role for T cells and HLA antibodies in rejection was minimized, KIR‐ligand mismatches were associated with an approximately 25% reduction in 10‐year death‐censored graft survival (p = 0.043). This effect was comparable to the effect of classical HLA‐A and HLA‐B incompatibility, and in HLA‐A,‐B‐incompatible transplantations (n = 260) no significant additional effect of KIR‐ligand mismatches was observed. Multivariate Cox regression analysis confirmed the effect of KIR‐ligand mismatching as an independent risk factor in HLA‐A,‐B,‐DR‐compatible transplantations (hazard ratio 2.29, range 1.03–5.10, p = 0.043). This finding constitutes the first indication that alloreactive NK cells may thwart the success of HLA‐compatible kidney transplantations, and suggests that suppression of NK‐cell activity can improve the survival of such kidney grafts.     

Natural killer-cell activity after human renal transplantation in relation to killer immunoglobulin-like receptors and human leukocyte antigen mismatch

BACKGROUND: Natural killer (NK) cells use killer immunoglobulin-like receptors (KIR) that bind to self-class I major histocompatibility complex (MHC) molecules to prevent killing of autologous cells. Mismatched allografts, which do not express recipient MHC class I molecules, can therefore be potential targets for NK-cell killing. In our living related-unrelated renal transplantation program, donor-recipient pairs vary in the amount of both HLA and KIR genes they share. This provides us with a unique opportunity to dissect the influence of KIR on NK-cell function after transplantation. METHODS: Recipient NK cells were used in a cytotoxicity assay against donor peripheral blood mononuclear cells 2 days before, on the day of, and 3 days after transplantation. Results were correlated to HLA-KIR compatibility between donor and recipient. RESULTS: NK killing, in a direct ex vivo setting, was demonstrated to be HLA mismatch dependent. Recipient NK antidonor cytotoxicity was unaltered despite having received 2 days' treatment with cyclosporine A before transplantation. However, cytotoxicity increased 3 days after transplantation in 71% of recipients. Recipients exhibiting increased NK cytotoxicity against their donors after transplantation were found to possess more activating KIR genes specific for donor class I MHC molecules than those in whom killing activity did not increase (P<0.04). CONCLUSIONS: NK cells are activated after transplantation despite quadruple immunosuppression, suggesting that recipient NK-cell cytotoxicity against the donor may be a previously unrecognized area of the rejection process, especially in poorly matched donor-recipient pairs where the recipient may not express the correct repertoire of inhibitory receptors to prevent killing of donor cells.     

HLA Mismatching Favoring Host‐Versus‐Graft NK Cell Activity Via KIR3DL1 Is Associated With Improved Outcomes Following Lung Transplantation

Chronic lung allograft dysfunction (CLAD) is linked to rejection and limits survival following lung transplantation. HLA‐Bw4 recipients of HLA‐Bw6 grafts have enhanced host‐versus‐graft (HVG) natural killer (NK) cell activity mediated by killer cell immunoglobulin‐like receptor (KIR)3DL1 ligand. Because NK cells may promote tolerance by depleting antigen‐presenting cells, we hypothesized improved outcomes for HLA‐Bw4 recipients of HLA‐Bw6 grafts. We evaluated differences in acute cellular rejection and CLAD‐free survival across 252 KIR3DL1+ recipients from University of California, San Francisco (UCSF). For validation, we assessed survival and freedom from bronchiolitis obliterans syndrome (BOS), retransplantation, or death in 12 845 non‐KIR typed recipients from the United Network for Organ Sharing (UNOS) registry. Cox proportional hazards models were adjusted for age, gender, ethnicity, transplant type, and HLA mismatching. HVG‐capable subjects in the UCSF cohort had a decreased risk of CLAD or death (hazard ratio [HR] 0.57, 95% confidence interval [CI] 0.36–0.88) and decreased early lymphocytic bronchitis. The HVG effect was not significant in subjects with genotypes predicting low KIR3DL1 expression. In the UNOS cohort, HVG‐capable subjects had a decreased risk of BOS, retransplant, or death (HR 0.95, 95% CI 0.91–0.99). Survival improved with the higher‐affinity Bw4‐80I ligand and in Bw4 homozygotes. Improved outcomes in HVG‐capable recipients are consistent with a protective NK cell role. Augmentation of NK activity could supplement current immunosuppression techniques.     

供者NK细胞及其嵌合状态在异基因造血干细胞移植中的研究进展

目前,异基因造血干细胞移植(allo-HSCT)已广泛应用于造血系统疾病的治疗,但移植术后也存在一系列并发症。NK细胞的运用为改善allo-HSCT受者预后带来希望,供者来源NK细胞通过其细胞膜上的杀伤细胞免疫球蛋白样受体与其配体错配发挥同种异体反应,该过程具有保留移植物抗白血病和减少移植物抗宿主病双重效应。NK细胞是allo-HSCT后受者体内最早重建的免疫细胞群,因此移植后供、受者NK细胞嵌合状态评估对预测疾病预后及指导干预治疗具有重要意义。基于NK细胞嵌合状态的供者NK细胞输注免疫干预疗法可改善疾病预后,在血液系统疾病治疗中表现出良好的应用前景。本文就近年来供者NK细胞及其嵌合状态在allo-HSCT中的研究进展作一综述。     

Reassessing the Impact of Donor HLA-C Genotype on Long-Term Liver Transplant Survival

HLA-C is the major inhibitory ligand for killer immunoglobulin-like receptors (KIRs) that are expressed on natural killer (NK) cells. Based on their KIR specificity, HLA-C alleles can be divided into two groups, termed HLA-C1 and HLA-C2. Donor HLA-C group has recently been identified by Hanvesakul et al. (Am J Transplant 2008) as a critical determinant of clinical outcome following liver transplantation: Possession of at least one HLA-C group 2 allele by the donor was associated with significantly improved long-term graft and patient survival, presumably due to an inhibition of host NK cell function. To verify this study, we performed genotyping of 913 deceased liver donors for the relevant KIR epitopes of HLA-C and correlated the presence or absence of donor HLA-C2 genotype with graft and patient survival. In our study, donor HLA-C2 genotype had no impact on 10-year graft or patient survival. We cannot confirm a major role of donor HLA-C2 genotype on long-term allograft survival after liver transplantation.     

Natural Killer Cells and Liver Transplantation: Orchestrators of Rejection or Tolerance?

Natural killer (NK) cells are highly heterogeneous innate lymphocytes with a diverse repertoire of phenotypes and functions. Their role in organ transplantation has been poorly defined due to conflicting clinical and experimental data. There is evidence that NK cells can contribute to graft rejection and also to tolerance induction. In most solid organ transplantation settings, the role of NK cells is only considered from the perspective of the recipient immune system. In contrast to other organs, the liver contains major resident populations of immune cells, particularly enriched with innate lymphocytes such as NK cells, NKT cells, and gamma‐delta T cells. Liver transplantation therefore results in a unique meeting of donor and recipient immune systems. The unusual immune repertoire and tolerogenic environment of the liver may explain why this potentially inflammatory “meeting” often results in attenuated immune responses and reduced requirement for immunosuppression. Recent trials of immunosuppression withdrawal in liver transplant patients have identified NK cell features as possible predictors of tolerance. Here we propose that hepatic NK cells play a key role in the induction of tolerance post–liver transplant and examine potential mechanisms by which these cells influence liver transplant outcome.     

Relevance of HLA compatibility in living donor liver transplantation: the double‐edged sword associated with the patient outcome

HLA compatibility in living donor liver transplantation (LDLT) seems relevant to the acceptability of graft livers because LDLT recipients often share most or some part of HLAs with the respective donors. This study retrospectively investigated whether HLA compatibility affected the outcome of LDLT. Three hundred ninety LDLTs were performed in this hospital, and 346 pairs of HLAs (HLA‐A, B, DR) were retrieved from the medical record between October 1996 and March 2011. The dates of the deaths were censored when a recipient apparently died of or was retransplanted by other causes than graft failure because of host‐versus‐graft (HVG) response to purely analyze the outcomes of LDLT in view of HVG response. The relationship between HLA compatibility and graft‐versus‐host disease (GVHD) was also analyzed. No recipients with recipient‐against‐donor HLA mismatch (R→D MM) 0 experienced graft failure by HVG response. On the other hand, three of five recipients with “R→D MM 0” together with “donor‐against‐recipient MM 3” died of fatal GVHD. HLA compatibility in LDLT not only affected the long‐term acceptance of graft livers but also the risk of fatal GVHD.     

No Impact of KIR‐Ligand Mismatch on Allograft Outcome in HLA‐Compatible Kidney Transplantation

Natural killer (NK) cell function can be modulated by the killer cell immunoglobulin‐like receptors (KIR) which interact with human leukocyte antigen (HLA) class I molecules on target cells. KIR‐ligand mismatching has recently been shown by van Bergen et al. (American Journal of Transplantation 2011; 11(9): 1959–1964) to be a significant risk factor for long‐term graft loss in HLA‐A, ‐B and ‐DR compatible kidney transplants. To verify this potentially important finding, we performed genotyping of 608 deceased‐donor kidney graft recipients and their HLA‐A, ‐B and ‐DR compatible donors for KIR and HLA, using samples and clinical data provided by the Collaborative Transplant Study. Graft survival of KIR‐ligand‐matched and ‐mismatched transplants was compared. We found no impact of KIR‐ligand mismatching on 10‐year graft survival in HLA‐A, ‐B, ‐DR compatible kidney transplants. Further analysis did not reveal a significant effect of recipient activating/inhibitory KIR or KIR genotypes on graft survival. Our data do not support the concept that KIR‐HLA matching might serve as a tool to improve long‐term renal allograft survival.     

Human leukocyte antigen–C in short- and long-term liver graft acceptance

In liver transplantion, rejection is still an important problem, and the role of human leukocyte antigens (HLA) has not been clearly established. At present, the possible involvement of HLA-C antigen in liver transplantation is still unexplored. The aim of this work was to analyze the influence of HLA-C polymorphism on the outcome of liver transplantation. For this purpose, genotyping of 100 orthotopic liver transplant recipient-donor pairs for HLA-C was performed with polymerase chain reaction–sequence-specific primers (PCR-SSPs). Liver recipients were stratified according to the occurrence of acute rejection. Patients without acute rejection were found to have a lower frequency of the HLA-Cw*06 allele compared with those with acute rejection or the control group. Moreover, when the role of HLA-C dimorphism was analyzed, natural killer (NK)1-alloantigens were found to be predominant in recipients without acute rejection. When the match of HLA-C single alleles and NK-alloantigens between donor and recipient was analyzed, it appeared that the frequency of acute rejection gradually decreased with decrease of the number of allele mismatches. Graft survival was increased when the number of mismatches in both HLA-C or NK-alloantigens was lower. In conclusion, the HLA-C locus may play a role in liver graft alloreactivity or allotolerance and, therefore, may be useful to avoid acute rejection and to achieve graft acceptance, resulting in a better final outcome in liver transplantation. (Liver Transpl 2003;9:218-227.)     

NK Cells Mediate Costimulation Blockade-Resistant Rejection of Allogeneic Stem Cells During Nonmyeloablative Transplantation

Although T-cell CD28/CD40 costimulation blockade represents a powerful mechanism to promote immune tolerance during murine allotransplantation, it has not yet been successfully translated to clinical transplantation. We determined the impact of natural killer (NK) cells on costimulation blockade-resistant rejection of donor bone marrow. We found that NK cells represent a potent barrier to engraftment: host NK depletion led to increased donor stem cell survival, increased mixed hematopoietic chimerism and to engraftment of low doses of donor marrow (1 x 10(8)/kg) that were otherwise rejected. To understand the mechanisms of NK alloreactivity, we employed an in vivo NK-specific cytotoxicity assay. We found that an increased proportion of target cells were killed between days 2 and 8 after cell transfer, and that NK killing of parental targets was inducible: NK cells preprimed with allotargets were more efficient at their elimination upon reexposure. Finally, both transplant and in vivo NK-killing models were used to determine the contribution of LFA-1 to NK alloreactivity. Blockade of LFA-1 led to decreased NK-mediated killing, and increased alloengraftment. These results identify NK alloreactivity as an integral component to costimulation blockade-resistant rejection, and suggest that its inhibition may represent an important target in the clinical translation of tolerance-induction transplantation.     

Do NK Cells Contribute to the Pathophysiology of Transplant‐Associated Thrombotic Microangiopathy?

Transplant‐associated thrombotic microangiopathy (TA‐TMA) is a life‐threatening complication caused by the aggregation of platelets exposed to the thrombogenic subendothelial matrix of injured endothelial cells. Here, we present a case of a patient transplanted for idiopathic aplastic anemia with a T‐cell depleted hematopoietic stem cell graft from an HLA‐C mismatched unrelated donor. At day 7 posttransplant, she suffered from acute renal failure with hematuria. The presence of numerous schistocytes, an increased level of lactate dehydrogenase and a renal biopsy with multiple vascular injuries confirmed the diagnosis of severe TA‐TMA. At day 14, she developed graft versus host disease and died 7 months posttransplantation of multiorgan failure. At day 15, we observed a sizable population of natural killer (NK) cells in the peripheral blood, the number of which reached 0.8 G/L at 4 months posttransplant. Most NK cells lacked inhibitory killer immunoglobulin‐like receptors (KIR) specific for the KIR‐ligands expressed in the patient. NK cells were also abundantly present in pericardial and pleural fluids and had invaded the kidney, where they colocalized with the renal vasculopathy. Because there are several mechanisms through which NK cells and platelets can activate each other reciprocally, it is conceivable that NK cells contribute to TA‐TMA and its progression.     

Donor‐targeted serotherapy as a rescue therapy for steroid‐resistant acute GVHD after HLA‐mismatched kidney transplantation

Acute graft‐versus‐host disease (GVHD) is a rare but frequently lethal complication after solid organ transplantation. GVHD occurs in unduly immunocompromised hosts but requires the escalation of immunosuppression, which does not discriminate between host and donor cells. In contrast, donor‐targeted therapy would ideally mitigate graft‐versus‐host reactivity while sparing recipient immune functions. We report two children with end‐stage renal disease and severe primary immune deficiency (Schimke syndrome) who developed severe steroid‐resistant acute GVHD along with full and sustained donor T cell chimerism after isolated kidney transplantation. Facing a therapeutic dead end, we used a novel strategy based on the adoptive transfer of anti‐HLA donor‐specific antibodies (DSAs) through the transfusion of highly selected plasma. After approval by the appropriate regulatory authority, an urgent nationwide search was launched among more than 3800 registered blood donors with known anti‐HLA sensitization. Adoptively transferred DSAs bound to and selectively depleted circulating donor T cells. The administration of DSA‐rich plasma was well tolerated and notably did not induce antibody‐mediated rejection of the renal allografts. Acute GVHD symptoms promptly resolved in one child. This report provides a proof of concept for a highly targeted novel therapeutic approach for solid organ transplantation–associated GVHD.     

Natural Killer Cell Receptor Repertoire and Their Ligands,and the Risk of CMV Infection After Kidney Transplantation

Cytomegalovirus (CMV) infection is the most common viral complication after solid organ transplantation (SOT). Whilst current immunosuppression is known to impair antiviral‐specific T‐cell immunity in SOT, a potential role for natural killer (NK) cells not affected by immunosuppressive therapy remains to be determined. To address this, we compared the genotype of the NK immunoglobulin‐like receptor (KIR) genes and their HLA cognate ligands to the rate of CMV infection in 196 kidney transplant recipients. We have shown that the absence of the HLA‐C ligand for inhibitory KIR and the presence of activating KIR genes in the recipients were both associated with a lower rate of CMV infection after transplantation. In a cohort of 17 recipients with acute CMV infection, NK cells were phenotyped over a period of time after diagnosis by their expression profile of C‐type lectin receptors and capacity to secrete IFN‐γ. The increased expression of the activating C‐type lectin receptors NKG2C and NKG2D was paralleled by the decreased IFN‐γ secretion during the early phase of CMV infection. In conclusion, our findings suggest that KIR/HLA genotype and expression of NKG2C and NKG2D might play a significant role in regulating NK cell function and anti‐CMV immunity after kidney transplantation.     

Donor‐specific chimeric antigen receptor Tregs limit rejection in naive but not sensitized allograft recipients

Cell therapy with autologous donor‐specific regulatory T cells (Tregs) is a promising strategy to minimize immunosuppression in transplant recipients. Chimeric antigen receptor (CAR) technology has recently been used successfully to generate donor‐specific Tregs and overcome the limitations of enrichment protocols based on repetitive stimulations with alloantigens. However, the ability of CAR‐Treg therapy to control alloreactivity in immunocompetent recipients is unknown. We first analyzed the effect of donor‐specific CAR Tregs on alloreactivity in naive, immunocompetent mice receiving skin allografts. Tregs expressing an irrelevant or anti‐HLA‐A2‐specific CAR were administered to Bl/6 mice at the time of transplanting an HLA‐A2⁺ Bl/6 skin graft. Donor‐specific CAR‐Tregs, but not irrelevant‐CAR Tregs, significantly delayed skin rejection and diminished donor‐specific antibodies (DSAs) and frequencies of DSA‐secreting B cells. Donor‐specific CAR‐Treg–treated mice also had a weaker recall DSA response, but normal responses to an irrelevant antigen, demonstrating antigen‐specific suppression. When donor‐specific CAR Tregs were tested in HLA‐A2‐sensitized mice, they were unable to delay allograft rejection or diminish DSAs. The finding that donor‐specific CAR‐Tregs restrain de novo but not memory alloreactivity has important implications for their use as an adoptive cell therapy in transplantation.     

The Programmed Death (PD)‐1/PD‐Ligand 1 Pathway Regulates Graft‐Versus‐Host‐Reactive CD8 T Cells After Liver Transplantation

Acute graft‐versus‐host disease (aGVHD) is a life‐threatening complication after solid‐organ transplantation, which is mediated by host‐reactive donor T cells emigrating from the allograft. We report on two liver transplant recipients who developed an almost complete donor chimerism in peripheral blood and bone marrow‐infiltrating T cells during aGVHD. By analyzing these T cells directly ex vivo, we found that they died by apoptosis over time without evidence of rejection by host T cells. The host‐versus‐donor reactivity was selectively impaired, as anti‐third‐party and antiviral T cells were still detectable in the host repertoire. These findings support the acquired donor‐specific allotolerance concept previously established in animal transplantation studies. We also observed that the resolution of aGVHD was not accompanied by an expansion of circulating immunosuppressive CD4/CD25/FoxP3‐positive T cells. In fact, graft‐versus‐host‐reactive T cells were controlled by an alternative negative regulatory pathway, executed by the programmed death (PD)‐1 receptor and its ligand PD‐L1. We found high PD‐1 expression on donor CD4 and CD8 T cells. In addition, blocking PD‐L1 on host‐derived cells significantly enhanced alloreactivity by CD8 T cells in vitro. We suggest the interference with the PD‐1/PD‐L1 pathway as a therapeutic strategy to control graft‐versus‐host‐reactive T cells in allograft recipients.