The role of the allograft in the induction of donor-specific T cell hyporesponsiveness

BACKGROUND: With adequate immunosuppression the majority of renal allografts are accepted, despite the exceptional vigour of the T cell alloimmune response. Previous work from this laboratory has demonstrated that this is accompanied by significant reductions in the precursor frequencies of anti-donor T cells. We have also shown that parenchymal cells are tolerogenic in vitro. We propose that the reduction in T cell frequencies may be due to the interaction between circulating T cells and potentially tolerogenic graft parenchymal cells. Primed/memory T cells (CD45RO+) are the only subset capable of reaching the allograft and therefore we would predict that T cell hyporesponsiveness would develop predominantly in the CD45RO+ subset due to their trafficking properties. METHODS: Frequencies of IL-2 secreting CD45RA+ and CD45RO+ CD4+ T cells in response to donor and third party stimulator cells were estimated in a series of renal transplant recipients, both before and after transplantation. RESULTS: There were highly significant reductions in the frequencies of donor-specific CD4+CD45RO+ T cells, when adjusted to control for the generalised effects of immunosuppression. There were no significant alterations in the frequencies of donor-specific CD4+CD45RA+ T cells. CONCLUSIONS: In renal transplant recipients, donor-specific CD4+ T cell hyporesponsiveness occurs predominantly in CD4+ CD45RO+ T cells which is the subset capable of trafficking through the graft.     

Immunologic monitoring of the beneficial effect of one HLA-DR-shared blood transfusion in heart transplant patients.

BACKGROUND: Pre-transplant blood transfusion (BT) results in better graft survival in organ transplant recipients, especially when BT donor and allograft recipient share an HLA-DR antigen. Although the immunologic mechanisms involved are still poorly understood, we wanted to know whether down regulation of donor-reactive T cells play a role. METHODS: In a retrospective study, we analyzed the clinical effects of BT for 45 heart transplant (HTx) patients who had each received 1 BT that shared an HLA-DR-antigen with the recipient, and 55 who had a DR-mismatched BT before heart transplantation. From 30 patients, 15 with DR-shared BT and 15 with DR-mismatched BT, peripheral blood lymphocytes (PBL) were available. From each patient, we analyzed PBL samples taken at the day of transplantation (pre-transplant), and 1 to 2 months, 5 to 7 months, 9 to 14 months, 2 years, and 6 to 7 years after transplantation. Cytotoxic T-lymphocyte precursors (CTLp) and helper T-lymphocyte precursors (HTLp) were measured in a combined limiting dilution assay. RESULTS: Analysis of survival during the first 10 years revealed a significantly (p = 0.016) better survival rate in the group of patients who had received HLA-DR-shared BT compared with the group who had received HLA-DR-mismatched BT. Patients of the DR-shared group experienced significantly (p = 0.042) less acute rejections compared with the patients who received DR-mismatched BT. We found no differences in the development of graft vascular disease. Frequencies of CTLp specific for the organ donor did not change with time after transplantation in the individual patients, nor did we detect any differences between the two BT groups. We found the same for organ donor-specific HTLp frequencies. CONCLUSIONS: These data suggest again that transfusion effect depends on HLA-DR compatibility between the heart transplant recipient and the pre-transplant BT donor. The mechanism that caused better survival rate was not down regulation of the donor-reactive T-cell frequency.     

Modified ELISPOT technique--highly significant inverse correlation of post-Tx donor-reactive IFNgamma-producing cell frequencies with 6 and 12 months graft function in kidney transplant recipients

BACKGROUND: Upcoming trials for immunosuppression minimization and tolerance induction require the development of reliable in vitro assays for monitoring cellular alloimmunity in transplant patients. The IFN-gamma ELISPOT assay represents a promising tool for monitoring alloreactive memory/effector T cells. As T lymphopenia is a common finding during the early post-transplant (post-Tx) period, the IFN-gamma ELISPOT technique was here modified by using ELISPOT responder cells with enhanced percentage and standardized number of 200,000 T cells per well. METHODS: Peripheral blood mononuclear cells (PBMNC) of kidney transplant recipients were depleted of CD14+ and CD15+ cells to increase the percentage of T cells from average 47.8% to 71.5% before transplantation (pre-Tx) and from 39.7% to 74.9% post-Tx. The assay was tested in a population of 23 de novo renal transplant patients for clinical relevance. Before and at 2-3 times during the first 6 months post-Tx, IFN-gamma-producing donor-reactive as well as recall antigen-reactive cell frequencies (Candida, tuberculin, tetanus) were determined and correlated with outcome. RESULTS: Pre-Tx donor-reactive ELISPOT frequencies were enhanced in patients with acute rejection compared to non-rejectors. Moreover, mean post-Tx donor-reactive ELISPOT frequencies showed a highly significant inverse correlation with renal function at 6 and 12 months. In contrast, recall antigen-reactive ELISPOT frequencies did not correlate with outcome. CONCLUSION: Our results suggest that the modified donor-reactive ELISPOT approach might provide a useful surrogate marker for renal transplant outcome with possible utility especially in T-lymphopenic patients.     

CD4+CD25+ regulatory T cells do not significantly contribute to direct pathway hyporesponsiveness in stable renal transplant patients

CD4(+)CD25(+) regulatory T cells have been shown to regulate a variety of autoimmune and allogeneic responses in mice and humans. The role of CD4(+)CD25(+) cells in regulating alloresponses in human transplant recipients remains uncertain. Previous research has demonstrated a reduced frequency of direct pathway donor-specific T cells in renal transplant recipients when compared with the frequency of T cells reactive to an HLA-matched third party. A number of mechanisms have been proposed to account for this finding; the purpose of this study was to determine whether CD4(+)CD25(+) cells play a significant role. Twelve stable renal transplant patients were investigated using limiting dilution assay (LDA) and ELISPOT for interferon-gamma to determine the effect of depleting CD4(+)CD25(+) cells on the direct pathway alloresponse. The percentage of CD4(+)CD25(+) cells in the peripheral blood of the study patients was equivalent to that of healthy controls. Furthermore, in no case did depletion of CD4(+)CD25(+) cells significantly increase the frequency of donor-specific T cells detected by LDA. This was also found with ELISPOT in all except one patient, in whom depletion revealed an increased frequency of alloreactive T cell to both donor and third party. Finally, kinetic analysis of the LDA data did not indicate regulation against donor when compared with third party. It is concluded that the action of CD4(+)CD25(+) regulatory cells is not the main mechanism of donor-specific hyporesponsiveness in the direct pathway of allorecognition.     

Frequency, specificity, and phenotype of clonally growing human alloreactive interleukin-2-secreting helper T lymphocyte precursors

Limiting dilution cultures were performed to detect allospecific IL-2-secreting helper T lymphocyte precursors (HTL-p) among human peripheral blood mononuclear cells, E-rosette-purified (E+) and cell-sorter-separated CD4+/8- as well as CD4-/8+ T cell subsets. Split-well cultures were set up prior to restimulation to assess the antigen specificity of the response. Frequencies of alloreactive IL-2-secreting HTL-p in fully HLA-mismatched responder/stimulator cell combinations ranged from 1/200 to 1/900 (among PBMNC), from 1/50 to 1/301 (among E+ T cells), from 1/36 to 1/220 (among CD4+ T cells), and from 1/38 to 1/450 (among CD8+ T cells). Allospecificity of effector T cells was demonstrated by a strong decline of frequencies obtained after restimulation against unrelated third-party antigens. In clonal segregation analysis, the vast majority of IL-2-secreting progeny (80-90%) were exclusively specific for the original stimulating alloantigen. Finally, the allele specificity of human alloreactive HTL-p was revealed by comparing frequency estimates obtained after restimulation with partially identical stimulator/third-party antigen combinations.     

Circulating alloreactive T cells correlate with graft function in longstanding renal transplant recipients

Monitoring for alloreactive memory T cells after organ transplantation may allow individualization of immunosuppression. Two pathways of T cell allorecognition have been implicated in chronic graft dysfunction: Direct (recipient T cells respond to donor peptides presented by donor antigen-presenting cells) and indirect (donor peptides are processed and presented by recipient antigen-presenting cells). Previous studies have assessed these alloresponses only during the first 2 yr after kidney transplantation,so this study correlated the presence of circulating donor-reactive memory/effector T cells, primed by both pathways, in 34 longstanding living-donor renal transplant recipients using the highly sensitive IFN-gamma Elispot assay. Remarkably, 59% of patients had directly primed donor-reactive T cells, and their presence correlated directly with serum creatinine (P = 0.001) and inversely with estimated GFR (P = 0.042). Multivariate analysis revealed that hyporesponsiveness of direct, donor-specific T cells was the only variable that significantly correlated with graft function and that antidonor indirect alloreactivity was the only variable that significantly correlated with proteinuria. Interestingly, when both allorecognition pathways were considered together, patients with undetectable direct alloreactivity had better longterm graft function, independent of allosensitization by the indirect pathway. In conclusion, circulating donor-specific alloreactive T cells primed by both pathways are detectable long after transplantation and are associated with graft injury. Assessment of alloreactive memory/effector T cells might be helpful to tailor individual immunosuppression regimens for transplant recipients in the future.     

Flt3-L augments the engraftment of donor-derived bone marrow cells when combined with sublethal irradiation and costimulatory (CD28/B7 and CD40/CD40L) blockade

T-cell costimulatory blockade as a constituent for recipient conditioning prior to bone marrow transplantation has led to the development of less toxic protocols for the establishment of donor cell chimerism. We therefore hypothesized that the addition of the hematopoietic growth factor, Flt3-ligand (Flt3-L), to the perioperative inhibition of the CD28/B7 and CD40/CD40 ligand costimulatory pathways would enhance the engraftment of allogeneic bone marrow. Recipient BALB/c ByJ (H-2(d), Mls(c), Vbeta6+/Vbeta8+ TCR) received a single sublethal dose of total body irradiation (300 rad) 6 h prior to transplantation IV with unfractionated donor CBA/J (H-2(k), Mls(d), Vbeta6-/Vbeta8+ TCR) bone marrow cells. CTLA4-Ig and/or MRI were administered at 500 microg IP on days 0, 2, 4, and 6 posttransplantation. Flt3-L was administered at 10 microg IP on days 0-6. Donor cell chimerism was determined on days 30-90 by flow cytometric analysis. Donor-specific tolerance was assessed by skin grafting. In vitro TCR cross-linking assays and flow cytometry were utilized to explore the deletion of donor-reactive T cells. Recipients receiving CTLA4-Ig and MRI engrafted allogeneic bone marrow cells in the peripheral blood (3/6; 50%) with chimerism being detected at 2-31%. Addition of Flt3-L to this preconditioning regimen enhanced the incidence of engraftment of donor bone marrow cells (10/13; 3-70%). Long-term survival of donor but not third-party-specific skin grafts demonstrated that donor-specific tolerance had been achieved in the chimeric recipients. Deletion of the donor-reactive T cells within the chimeric recipients was also observed. The addition of hematopoietic growth factors and cytokines to the nonmyeloablative regimen of sublethal irradiation and T-cell costimulatory blockade provides a novel strategy for the establishment of donor cell chimerism and for the induction of stable and robust donor-specific tolerance. The deletion of donor-reactive T cells using this protocol suggests the reliability and feasibility of this protocol for clinical transplantation.     

ICOS-Dependent and -Independent Functions of Memory CD4 T Cells in Allograft Rejection

Donor-reactive memory T cells undermine the survival of transplanted organs through multiple pathways. We have previously reported that memory CD4 T cells resist treatment with anti-CD154 antibody and donor-specific transfusion (DST/MR1) and promote cardiac allograft rejection via generation of effector CD4 T cells and alloantibody. We hypothesized that the helper functions of memory CD4 T cells are independent of T-cell costimulation through CD154 but instead are regulated by alternative costimulatory pathways. This study investigated how blocking ICOS/B7RP-1 interactions affects functions of donor-reactive memory CD4 T cells. Treatment with blocking anti-ICOS mAb synergized with DST/MR1 and prolonged mouse cardiac allograft survival despite the presence of donor-reactive memory CD4 T cells. While blocking ICOS did not diminish the expansion of preexisting memory CD4 T cells or the induction of allospecific effector T cells, it did inhibit recruitment of the activated memory and effector T cells into the graft. In addition, anti-ICOS mAb treatment in combination with DST/MR1 prevented help provided by memory CD4 T cells for production of donor-specific IgG antibody. These results demonstrate the potential efficacy of ICOS blockade in sensitized transplant patients and provide the foundation for rational use of ICOS blockade in combination with other graft-prolonging strategies.     

Evaluation of peripheral blood CD4 and CD8 lymphocyte subsets,CD69 expression and histologic rejection grade as diagnostic markers for the presence of cardiac allograft rejection

We investigated the dynamics of the CD4+ and CD8+ lymphocyte subsets, and the expression of activation markers in cardiac transplant recipients. We tested 132 peripheral blood samples from 62 cardiac transplant recipients using fluorescent staining and flow cytometry analysis. The results were correlated with histological rejection grade of concurrently taken biopsies, and 5-year survival of the recipients. A decrease in the total T lymphocyte subset, and in CD4+ lymphocytes was associated with higher rejection grade and lesser survival. An increase (5-11%) of double positive CD4+ CD8+ lymphocytes was observed; these were mostly CD4brightCD8dim. The CD4/CD8 ratio was significantly (P < 0.00) lower in the transplant recipients than in normal individuals. CD69 expression was higher than CD54 and CD154 expression on CD4 and CD8 lymphocytes of cardiac transplant recipients; correlation between these activation markers was excellent (P < 0.001). Fluorescent staining for CD69 was often of low intensity. Multiple regression for % CD8+ CD69+ cells and survival, and for % CD69+ T cells and rejection grade yielded a significant correlation (P < 0.050). Both % CD8+ CD69+ and % CD69+ T cells were significantly higher in samples with severe and moderate rejection grade (grades 3A, 3B and 4) than in samples which showed no, minimal or mild rejection (grades < or = 2); P-values were 0.052 and 0.003, respectively. Preliminary results indicated that false negative results could be contributed to increased immunosuppression. We conclude that CD69 expression on circulating CD4 and CD8 lymphocytes is a useful parameter for the diagnosis of moderate and severe rejection.     

Intracellular interferon-γ staining analysis of donor-specific T-cell responses in liver transplant recipients

Objective

Biomarkers that accurately reflect, detect, and/or predict detrimental immune responses to grafts are important in organ transplantation. We established a new detection method for alloreactive T cells on the basis of intracellular staining for interferon (IFN)-γ, using CD40-activated B cells as stimulators, and assessed temporal changes in alloreactive T-cell frequencies in patients who received liver transplantation.

Methods

Peripheral blood mononuclear cells and CD40-activated B cells were used as responder and stimulator cells, respectively. The responder cells were cultured with the stimulator cells for 7 days, restimulated for 5 hours, and flow cytometrically tested by intracellular staining for IFN-γ.

Results

The relative postoperative-preoperative ratio of donor-specific CD8⁺ T cells in the nonrejection group was significantly lower than that in the rejection group and found to be <1 in most individuals of the group throughout the postoperative periods, indicating an induction of donor-specific suppression of the CD8⁺ T-cell responses. In contrast, such differences were not found in the donor-specific CD4⁺ T cells. These results suggest that the relative postoperative-preoperative ratio of the donor-specific CD8⁺ T cells is a good indicator of graft rejection.

Conclusion

We established a new flow cytometric method for the detection of alloreactive T cells by intracellular staining for IFN-γ, using CD40-activated B cells as stimulator cells. Using this system, we found that the relative postoperative-preoperative ratio of the donor-specific CD8⁺ T cells is a possible evaluative indicator of the risk for graft rejection.     

Modified ELISPOT technique — Highly significant inverse correlation of post-Tx donor-reactive IFNγ-producing cell frequencies with 6 and 12 months graft function in kidney transplant recipients

BackgroundUpcoming trials for immunosuppression minimization and tolerance induction require the development of reliable in vitro assays for monitoring cellular alloimmunity in transplant patients. The IFN-γ ELISPOT assay represents a promising tool for monitoring alloreactive memory/effector T cells. As T lymphopenia is a common finding during the early post-transplant (post-Tx) period, the IFN-γ ELISPOT technique was here modified by using ELISPOT responder cells with enhanced percentage and standardized number of 200,000 T cells per well.MethodsPeripheral blood mononuclear cells (PBMNC) of kidney transplant recipients were depleted of CD14+ and CD15+ cells to increase the percentage of T cells from average 47.8% to 71.5% before transplantation (pre-Tx) and from 39.7% to 74.9% post-Tx. The assay was tested in a population of 23 de novo renal transplant patients for clinical relevance. Before and at 2–3 times during the first 6 months post-Tx, IFN-γ-producing donor-reactive as well as recall antigen-reactive cell frequencies (Candida, tuberculin, tetanus) were determined and correlated with outcome.ResultsPre-Tx donor-reactive ELISPOT frequencies were enhanced in patients with acute rejection compared to non-rejectors. Moreover, mean post-Tx donor-reactive ELISPOT frequencies showed a highly significant inverse correlation with renal function at 6 and 12 months. In contrast, recall antigen-reactive ELISPOT frequencies did not correlate with outcome.ConclusionOur results suggest that the modified donor-reactive ELISPOT approach might provide a useful surrogate marker for renal transplant outcome with possible utility especially in T-lymphopenic patients.     

A Renewable Source of Donor Cells for Repetitive Monitoring of T- and B-Cell Alloreactivity

A major impediment to repetitive monitoring of alloreactivity or tolerance is the limited supply of donor cells available for assays of host-versus-graft T- and B-cell reactivity. In this paper, we describe the use of CD40L stimulated CD19(+) B cells as targets or stimulators in flow cytometric crossmatching (FXM), mixed lymphocyte reactivity and IFN-gamma ELISPOT assays. Stimulated B cells (sBc) express high levels of MHC class I and II, as well as the costimulatory molecules CD80 and CD86. They can be polyclonally expanded and frozen for later use. We describe the use of sBc in ELISPOT, mixed lymphocyte cultures and FXM. CD4(+) T cells exposed to sBc express a similar cytokine profile as those stimulated with unfractionated PBMC. We further analyzed T- and B-cell responses in 14 patients on the renal transplant waiting list, finding that those with an elevated panel reactive antibody (PRA) (>60%) had higher alloreactive T-cell precursor frequencies as measured by CDFSE MLR and IFN-gamma ELISPOT. We conclude that sBc are a renewable source of donor-specific target/stimulator cells for use in repetitive and coordinate assays of B- and T-cell alloreactivity.     

CD154 on the surface of CD4+CD25+ regulatory T cells contributes to skin transplant tolerance

BACKGROUND: It is known that the infusion of whole blood from donors (donor-specific transfusion) into recipients combined with anti-CD154 therapy can prolong allograft survival. It has generally been agreed that the effectiveness of anti-CD154 therapy is caused by the inactivation of alloreactive CD4+ and CD8+ effector T cells. The recent literature has implicated CD4+CD25+ regulatory T cells in the suppression of autoimmunity and graft rejection, and we therefore examined whether CD154 blockade is effective because of its blockade of inflammatory T-cell activation or because of a direct impact on the regulatory T cells. METHODS: RAG(-/-) mice were adoptively transfused with CD4+ T cells or a subset of the population (CD4+CD25+ or CD4+CD25- T cells) alone or in combination with donor-specific transfusion and anti-CD154 and given an allo-skin transplant. The longevity of the transplant was determined over time. CD154(-/-)CD4+ T cells were used to assess the importance of CD154 in graft rejection and acceptance. RESULTS: CD154 blockade (or loss of CD154) on CD4+CD25+ regulatory T cells enhanced their immunosuppressive activities and was a contributing factor to anti-CD154-induced immune suppression in vivo. In a model of allograft tolerance, suppression was elicited by antigen and anti-CD154 or antigen alone if the CD4+CD25+ regulatory T cells were deficient in CD154 expression. CONCLUSIONS: Neutralizing the function of CD154 on regulatory T cells upon antigen exposure induces heightened levels of suppressive activities and is likely a contributing factor to the long-lived therapeutic effects of anti-CD154 treatment.     

Improvement of heart allograft acceptability associated with recruitment of CD4+CD25+ T cells in peripheral blood by recipient treatment with granulocyte colony-stimulating factor

BACKGROUND: Granulocyte colony-stimulating factor (G-CSF), an important hematopoietic growth factor of the myeloid lineage, exerts profound immunoregulatory effects in T-cell tolerance. The study objective was to investigate the potential mechanism of G-CSF's antirejection effects in a fully mismatched rat cardiac allograft model. METHODS: The allograft recipients were treated with subcutaneous injection of recombinant human G-CSF (rh-G-CSF) at a dose of 250 microg/kg/d for 6 days starting from the day of cardiac transplantation. The alloreactive T-cell response and rejection level of G-CSF-treated rats were compared with those of control rats using mixed lymphocyte reactions (MLR) and histological examinations. Cytokine and cellular profiles were determined using enzyme-linked immunosorbent assay (ELISA) and flow cytometry. The presence and suppressive functions of regulatory T cells were determined by adoptive cell transfer experiments. RESULTS: Posttransplantation treatment of recipients with rh-G-CSF alone prolonged allograft survival, improved allograft biopsy grading scores, and induced alloreactive T-cell hyporesponsiveness accompanied by high levels of interleukin-10 (IL-10) and transforming growth factor-beta1 (TGF-beta1) production in MLR. It also enhanced CD4+CD25+ T cells in peripheral blood. The splenocytes from rh-G-CSF-treated recipients transferred antirejection effects to secondary recipients. CONCLUSIONS: Posttransplantation treatment of cardiac allograft recipients with rh-G-CSF leads to alloreactive T-cell hyporesponsiveness in vivo and in vitro associated with recruitment of CD4+CD25+ T cells in the peripheral blood. This study may provide insight into the application of G-CSF to control acute rejection of solid organ transplantations.     

In vivo mechanisms of alloreactivity. II. Allospecificity of cytotoxic T lymphocytes in sponge matrix allografts as determined by limiting dilution analysis

We have examined the frequency and alloantigen specificity of CTL that accumulate in sponge allografts (sponges seeded with allogeneic splenocytes) in sponge isografts (sponges seeded with syngeneic splenocytes), and in splenocyte-free sponge implants. Using limiting dilution analysis (LDA), we observed that sponge isografts and splenocyte-free sponge implants from C57BL/6 (H-2b) mice usually acquire small numbers of CTL (less than 250 cells per graft) with DBA/2 (H-2d)-reactivity or C3H/HeJ (H-2k)-reactivity. These alloreactive CTL are not detectable in conventional 51Cr-release assays, presumably because they are too infrequent and/or because they are inactive CTL precursors. When we examined the accumulation of alloreactive CTL in sponge allografts, we observed that DBA/2 sponge allografts from C57BL/6 recipients accumulate 10 to 100 times more DBA/2-reactive CTL than alloantigen-free sponge grafts. Nonetheless, these donor-reactive CTL rarely constitute more than 0.5% of the T cells recovered from sponge allografts, even at the peak of the rejection response. This raises questions concerning the remaining 99.5% of the allograft-infiltrating T cells. We were unable to detect by LDA any host-reactive CTL in sponge allografts, thus excluding the possibility that some of the remaining T cells were host-reactive CTL of donor origin which diluted graft-reactive T cells. However, using LDA we did detect a significant number of third-party (C3H/HeJ)-reactive CTL in sponge allografts, suggesting that the intense immune response at a graft site might facilitate indiscriminate recruitment of T lymphocytes. Alternatively, this enhanced third-party alloreactivity might reflect the proliferation of donor-reactive CTL with incidental crossreactivity for C3H/HeJ alloantigens. While testing these two alternatives, we observed that LDA cultures designed to detect third-party-reactive CTL could also support the growth of the in vivo-activated, donor-reactive CTL from sponge allografts; This compromised enumeration by LDA of the less frequent, third-party-reactive CTL by LDA. Although LDA is the only method that detects the growing population of third-party-reactive CTL in sponge allografts, technical restraints exclude LDA as a method of determining whether donor-reactive CTL and third-party-reactive CTL are separate or overlapping CTL subpopulations. Hence, it remains unclear if third-party-reactive CTL are a significant or insignificant proportion of the CTL that infiltrate sponge allografts.(ABSTRACT TRUNCATED AT 400 WORDS)     

他克莫司对肝移植受者外周血T淋巴细胞亚群及共刺激分子表达的影响

目的 探讨他克莫司（FK506）对肝移植受者外周血T淋巴细胞亚群及其表面共刺激分子表达的影响。方法 采用荧光标记单克隆抗体和流式细胞技术，测定术后采用FK506治疗的肝移植受者（FK506治疗组）在用FK506后1、2、3、4周时的外周血T淋巴细胞亚群及其表面共刺激分子CD28、CD152和ICOS分子的表达情况，以健康志愿者（健康对照组）和患终末期肝脏疾病拟行肝移植者（肝病对照组）为对照。结果 CD3^＋T淋巴细胞在各组间的差异均无统计学意义（P〉0．05）。经FK506治疗后，肝移植患者的CD4^＋T淋巴细胞逐渐减少，CD8^＋T淋巴细胞逐渐增加，并恢复至健康对照组水平（P〉0．05）。FK506治疗组T淋巴细胞亚群表面CD28分子和ICOS分子表达逐渐下降，并明显低于健康对照组（P〈0．05），而CD152分子表达增加，且明显高于健康对照组（P〈0．05）；其ICOS分子表达水平的下降晚于CD28分子，CD4^＋CD28^＋T淋巴细胞、CD8^＋CD28^＋T淋巴细胞和CD4^＋ICOS^＋T淋巴细胞均呈现相近的变化规律。结论 FK506能迅速纠正移植受者T淋巴细胞亚群紊乱，并抑制正性共刺激分子CD28和ICOS的表达，促进负性共刺激分子CD152的表达。     

Contribution of Naïve and Memory T-Cell Populations to the Human Alloimmune Response

T-cell alloimmunity plays a dominant role in allograft rejection. The precise contribution of naïve and memory T cells to this response however remains unclear. To address this question, we established an ex vivo flow-cytometric assay that simultaneously measures proliferation, precursor frequency and effector molecule (IFNγ, granzyme B/perforin) production of alloreactive T cells. By applying this assay to peripheral blood mononuclear cells from healthy volunteers, we demonstrate that the CD4⁺ and CD8⁺ populations mount similar proliferative responses and contain comparable frequencies of alloreactive precursors. Effector molecule expression, however, was significantly higher among CD8⁺ T cells. Analysis of sorted naïve and memory T cells showed that alloreactive precursors were equally present in both populations. The CD8⁺ effector and terminally differentiated effector memory subsets contained the highest proportion of granzyme B/perforin after allostimulation, suggesting that these cells present a significant threat to transplanted organs. Finally, we demonstrate that virus-specific lymphocytes contribute significantly to the alloresponse in certain responder–stimulator HLA combinations, underscoring the importance of T-cell cross-reactivity in alloimmunity. These results provide a quantitative assessment of the roles of naïve and memory T-cell subsets in the normal human alloimmune response and establish a platform for measuring T-cell alloreactivity pre- and posttransplantation.     

Decreased donor-specific cytotoxic T cell precursor frequencies one year after clinical lung transplantation do not reflect transplantation tolerance: a comparison of lung transplant recipients with or without bronchiolitis obliterans syndrome

BACKGROUND: Decreased in vitro T cell alloreactivity, demonstrated by decreased frequencies of peripheral blood donor-specific T cell precursors, may reflect a tolerant state after transplantation and lower the risk for development of chronic graft dysfunction. It is unknown whether a decrease in donor-specific T cell frequencies also occurs after clinical lung transplantation and if such a decrease lowers the risk for bronchiolitis obliterans syndrome (BOS), a hallmark of chronic graft dysfunction. Therefore, we compared changes in posttransplant donor-specific cytotoxic T lymphocyte (CTLp) and helper T lymphocyte precursor (HTLp) frequencies in lung allograft recipients with good graft function and in recipients with BOS. METHODS: Donor and third party specific CTLp and HTLp frequencies were determined by limiting dilution assay in pre- and posttransplant (1 year) peripheral blood samples of lung allograft recipients with good graft function (n = 13) and BOS (n = 10). RESULTS: In recipients with good graft function, mean donor-specific CTLp frequencies decreased after transplantation (183 vs. 16 precursors before and after transplantation, respectively). Additionally, HTLp frequencies decreased but this was not specific for donor alloantigens because third party-specific HTLp frequencies decreased also. Surprisingly, recipients with BOS also showed a decrease in mean donor-specific CTLp frequencies after transplantation (332 vs. 49 precursors before and after transplantation, respectively). Again, HTLp frequencies decreased nonspecifically. CONCLUSIONS: We conclude that donor-specific CTLp frequencies decrease after lung transplantation, but that this does not result in transplantation tolerance protecting the lung against the development of chronic graft dysfunction.     

Rapid decreases in donor-specific cytotoxic T lymphocyte precursor frequencies and graft outcome after liver and lung transplantation

BACKGROUND: A decrease in donor-specific T cell precursor frequencies as seen late, one or more years, after transplantation is assumed to reflect transplantation tolerance, a condition important for long term acceptance of the allograft. However, such late decreases also occur in recipients that developed chronic transplant dysfunction questioning its relevance in transplantation tolerance. We investigated whether early, i.e., the first 6 months, decreases in donor-specific T cell precursor frequencies reflect transplantation tolerance and predict graft outcome after liver and lung transplantation. METHODS: Donor and third party specific cytotoxic (CTLp) and helper T lymphocyte precursor (HTLp) frequencies were analyzed in pretransplant and 1 (or 2) and 6-month blood samples taken from liver and lung recipients and were correlated with graft outcome. RESULTS: In liver allograft recipients with good graft function (n=7), mean donor-specific CTLp frequencies decreased as early as 1 month after transplantation and remained low thereafter. In contrast, mean CTLp frequencies did not decrease in liver allograft recipients with chronic transplant dysfunction (n=6). In lung allograft recipients, donor-specific CTLp frequencies remained relatively high and frequencies were not different between recipients without (n=6) or with (n=6) chronic transplant dysfunction. Donor-specific HTLp frequencies did not change significantly after liver or lung transplantation and did not differ between recipients without or with chronic transplant dysfunction. CONCLUSIONS: An early decrease in donor-specific CTLp correlates with good graft outcome after liver transplantation. Such rapid decreases in alloreactivity do not occur after lung transplantation illustrating the unique capacity of liver allografts to induce transplantation tolerance.     

Selective reduction of donor-specific cytotoxic T lymphocyte precursors in patients with a well-functioning kidney allograft

We have recently developed a sensitive limiting dilution (LD) culture system to measure human alloreactive cytotoxic T lymphocyte precursors (CTL-p) in a given lymphoid cell population. We have now used this system to determine frequencies of donor HLA antigen-inducible CTL-p in the peripheral blood of human allograft recipients at various stages after transplantation. All patients (1 pancreas recipient and 9 kidney recipients) were on continuous cyclosporine treatment throughout the study. We report that, in patients with a well-functioning kidney graft (6/9), the number of donor-reactive CTL-p among peripheral blood lymphocytes decreased within 3-8 months after transplantation--in some cases (2/6) more than 10-fold. In contrast, frequencies of CTL-p with specificity for third-part HLA antigens remained largely unaltered in these patients. Furthermore, no decrease of donor-reactive CTL-p frequencies was seen in 3 of 4 patients showing clinical symptoms of graft rejection. These results indicate that functional clonal deletion of antigraft-reactive CTL-p may contribute to the state of graft tolerance in certain patients with a well-functioning kidney allograft.