Ex vivo expansion of canine dendritic cells from CD34+ bone marrow progenitor cells

BACKGROUND: The aims of this study were to ex vivo expand canine dendritic cells and determine their phenotype and functional characteristics. METHODS: CD34+-selected cells and CD34+-depleted canine bone marrow (BM) cells were cultured in Iscove's modified medium for 14 days. Cytokines added to the cultures included human granylocyte/macrophage colony-stimulating factor 5 ng/ml, hFlt3 ligand 200 ng/ml, and human tumor necrosis factor-alpha 10 ng/ml. Cultured cells and purified subpopulations were assessed for cell surface antigen expression, morphology, and function by flow cytometric analysis, electron microscopy, and an allogeneic mixed lymphocyte reaction at day 14. RESULTS: Two main cell populations were identified, DR++(bright)/CD14- and DR+(dim)/CD14+. Ex vivo expanded CD34+-selected cells showed increased allostimulatory activity compared to both cultured CD34+-depleted cells and mononuclear cells. In contrast, ex vivo expansion from CD34+-depleted cells was unsuccessful. After sorting cells from the ex vivo expanded CD34+-selected bone marrow to enrich for DR++/CD14- cells, a 42-fold increase (median) of allostimulatory activity was observed as compared with sorted DR+/CD14+ cells (P=0.02). CONCLUSIONS: Cells with dentric cell-like phenotypes and functions can be cultured from canine CD34+-selected bone marrow cells. Future studies will address the roles of these cells in engraftment, graft versus host reactions and graft-host tolerance in a canine hematogoietic stem cell transplantaton model.     

Monitoring of Human Cytomegalovirus-Specific CD4+ and CD8+ T-Cell Immunity in Patients Receiving Solid Organ Transplantation

Absolute and human cytomegalovirus (HCMV)-specific CD4+ and CD8+ T-cell counts were monitored in 38 solid organ (20 heart, 9 lung and 9 kidney) transplant recipients during the first year after transplantation by a novel assay based on T-cell stimulation with HCMV-infected autologous dendritic cells. According to the pattern of T-cell restoration occurring either within the first month after transplantation or later, patients were classified as either early (n = 21) or late responders (n = 17). HCMV-specific CD4+ and CD8+ T-cell counts were consistently lower in late compared to early responders from baseline through 6 months after transplantation. In addition, in late responders, while HCMV infection preceded immune restoration, HCMV-specific CD4+ restoration was significantly delayed with respect to CD8+ T-cell restoration. The number of HCMV-specific CD4+ and CD8+ T-cells detected prior to transplantation significantly correlated with time to T-cell immunity restoration, in that higher HCMV-specific T-cell counts predicted earlier immune restoration. Clinically, the great majority of early responders (18/21, 85.7%) underwent self-resolving HCMV infections (p = 0.004), whereas the great majority of late responders (13/17, 76.5%) were affected by HCMV infections requiring antiviral treatment (p = <0.0001). Simultaneous monitoring of HCMV infection and HCMV-specific T-cell immunity predicts T-cell-mediated control of HCMV infection.     

Phenotypic changes in lymphocyte subpopulations in pediatric renal-transplant patients after T-cell depletion

BACKGROUND: T-cell depletion causes a novel homeostasis in lymphocyte subsets in adult transplant recipients. Little is known about long-term changes in pediatric patients. METHODS: Twenty-one pediatric renal-transplant patients (mean age 11.8 years) were selected according to their initial postoperative immunosuppressive therapy: (1) baseline immunosuppression (BI) with cyclosporine, azathioprine, and steroids, n=11; and (2) BI plus polyclonal antibodies, n=10. Lymphocyte surface markers were measured in the mean 2.3 years after transplantation and analyzed between the patient groups and in regard to 46 age-matched healthy controls. RESULTS: The patient groups did not differ with respect to age, sex, renal function, and previous infections. Total lymphocyte counts, CD4+ T-cell numbers, and distribution of naive to memory CD4+ T cells were not different between transplant groups and controls. However, patients with postoperative T-cell depletion showed significantly lower ratios of CD4+ to CD8+ T cells, elevated CD8+ T-cell numbers, increased counts of CD8+ T cells coexpressing CD57, and higher numbers of CD8+ cells with a naive phenotype. In addition, the numbers of double-positive T cells and lymphocytes bearing both natural killer (NK) and T-cell markers were elevated in the patients with postoperative depletion. NK and B-cell counts were lower in the transplant patient groups compared with the healthy controls. CONCLUSIONS: Pediatric transplant patients show characteristic long-term changes in lymphocyte subsets after T-cell depletion. In contrast with adult patients, these perturbations are less pronounced and predominant in the CD8+ T-cell compartment.     

肾移植术后早期严重肺部感染患者外周血CD4+T淋巴细胞计数的临床意义

目的 探讨肾移植术后早期严重肺部感染患者外周血CD4+T淋巴细胞计数的临床意义.方法 采用流式细胞术检测2007年2月至2008年6月期间,肾移植术后早期发生严重肺部感染的28例患者(感染组)外周血CD4+T淋巴细胞计数的变化,并随机选取同期肾移植术后病情稳定的30例患者(对照组)作为对照.结果 肾移植术后早期,感染组患者入院第1天CD4+T淋巴细胞计数显著低于对照组,分别为(184.1±117.5)个/μl和(518.6±232.7)个/μl(P<0.01).感染组患者中有5例治疗无效死亡,其中4例CD4+T淋巴细胞计数呈持续降低趋势;感染组中存活的患者在治疗恢复后,CD4+T淋巴细胞计数明显上升至(406.5±163.9)个/μl,与治疗前比较,P<0.01.受试者工作特征(ROC)曲线分析表明,CD4+T淋巴细胞计数减少能作为判断发生肺部感染的有效指标,其曲线下面积(AUC)为94.9%(P<0.01),CD4+T淋巴细胞计数为220个/μL时,其特异度为100%.结论 外周血CD4+T淋巴细胞的变化与肾移植术后早期严重肺部感染的转归密切相关.CD4+T淋巴细胞计数低于220个/μl的患者发生感染的可能性极大;测定外周血CD4+T淋巴细胞计数并动态分析对于优化治疗和判断预后有重要的参考价值.     

CD4+ CD25bright+ Regulatory T Cells Can Mediate Donor Nonreactivity in Long-Term Immunosuppressed Kidney Allograft Patients

CD4+ CD25bright+ FoxP3+ T cells are potent regulators of T-cell reactivity, but their possible involvement in donor-specific nonresponsiveness after clinical kidney transplantation remains to be elucidated. We assessed the proliferative donor-reactivity in 33 kidney allograft recipients who were maintained on a combination of proliferation inhibitors (mycophenolate mofetil (MMF) or Azathioprine (Aza)) and prednisone, long (> 5 years) after transplantation. Of the 33 patients, 8 still exhibited donor-reactivity, whereas 25 were classified as donor nonreactive patients. Within these 25 donor nonreactive patients, we assessed the involvement of CD4+ CD25bright+ regulatory T cells both by depleting them from the responder population as well as by reconstituting them to the CD25(-/dim) effector population. The absence of proliferation in these 25 patients, was abolished in 7 (28%) recipients upon depletion of the CD4+ CD25bright+ T cells. Reconstitution of these cells suppressed the donor-reactivity in a dose-dependent manner. Adding-back CD4+ CD25bright+ T cells inhibited the anti-third party response in all recipients, indicating that functional CD4+ CD25bright+ T cells circulate despite more then 5 years of immunosuppressive treatment. Altogether, we conclude that in long-term immunosuppressed kidney allograft patients functional regulatory CD4+ CD25bright+ T cells circulate but that these cells mediate donor non reactivity only in a subset of patients.     

CD4+ T-cell-dependent immune damage of liver parenchymal cells is mediated by alloantibody

BACKGROUND: Allogeneic hepatocytes initiate both CD4- and CD8-dependent rejection responses. The current studies address the hypothesis that acute damage of allogeneic liver parenchymal cells by the CD4-dependent pathway is alloantibody-mediated and examines immune conditions which promote activation of this pathway. METHODS: The role of alloantibody in CD4-dependent hepatocyte rejection was evaluated by assessing hepatocyte (FVB/N, H-2q) survival in CD8-depleted B-cell knockout (KO) (H-2b) recipients and by monitoring hepatocyte survival in C57BL/6.SCID (H-2b) recipients transfused with donor-reactive alloantibody. The development of donor-reactive alloantibody in C57BL/6 (H-2b), CD8-depleted C57BL/6, CD8 KO (H-2b), IFN-gamma KO (H-2b), perforin KO (H-2b), and FasL mutant gld/gld (H-2b) hepatocyte recipients was assessed. RESULTS: Hepatocyte rejection in B-cell KO mice was significantly delayed by CD8+ T-cell depletion (median survival time [MST], 35 days) when compared to untreated (MST, 8 days) and CD4-depleted (MST, 10 days) recipient mice. Transfusion of donor-reactive alloantibody into SCID recipients with functional hepatocellular allografts was sufficient to precipitate rejection in a dose-dependent fashion. Donor-reactive alloantibody was minimal in the serum of C57BL/6 hepatocyte recipients, but was produced in significant quantities in hepatocyte recipients genetically deficient in or depleted of CD8+ T cells and in recipients with impaired cytotoxic effector mechanisms. In addition, recipients with defects in Th1 immunity, such as IFN-gamma KO recipients, also produced readily detectable alloantibody. CONCLUSIONS: Collectively, these data support the hypothesis that acute immune damage of allogeneic hepatocytes by the CD4-dependent pathway is mediated by alloantibody and that this pathway is favored when Th1- or cell-mediated cytotoxic effector immune mechanisms are impaired.     

Allogeneic transplantation of selected peripheral CD34+ cells with controlled CD3+ cells add-back in high-risk patients

We evaluated the feasibility of allogeneic transplantation of CliniMACS-selected peripheral CD34+ cells from siblings (four patients: AML-M4, M2, CLL, MDS); nonoptimal related donors (two patients: AML-M4, CML); and unrelated donors (two patients: CML, ALL, both without engraftment after preceding URDBMT). All patients had high-risk of aGVHD and/or graft failure due to multiple transplantation risk factors. Conditioning treatment was myeloablative (n=7) or nonmyeloablative (n=1). Immunosuppression consisted of CsA (n=8), Mtx (n=5), ATG (n=4). Selected CD34+ cells were transplanted (average 3.91 x 10(6)/kg, range 1.29 to 7.27 x 10(6)/kg) together with 0.01 to 0.5 x 10(7) CD3+ cells/kg to assure proper engraftment. The remaining CD34-negative fraction was cryopreserved for further CD3+ cell add-back. Average recovery and purity of CD34+ cells following CliniMACS selection were 74% and 97%. No severe complications were observed in the first 100 days. Regeneration times were satisfactory in seven of eight patients (87.5%) with ANO > 0.5 g/L and Plt > 50 g/L reached on average on days +26 and +32 (range 15 to 29 and 15 to 67), respectively. In three patients (37.5%) T-lymphocytes were added-back one to three times (due to low numbers of initially transfused CD3+ cells in two patients, in one patient with PRCA caused by ABO incompatibility). One to four additional transplantations of nonselected peripheral cells were performed on days +28 to +270 in consequence of infections (CMV-two patients; parvovirus-one patient), poor regeneration and residual disease (one patient) and prolonged transfusion dependency (one patient). Severe aGVHD grade III or IV developed in three patients (37.5%) following the nonselected cells transplantation. Finally, five patients (62.5%) are alive and in remission (median follow-up 815 days). We conclude that allogeneic transplantation of selected peripheral CD34+ cells (CliniMACS) with controlled add-back of CD3+ cells is an effective, well, tolerated procedure in high-risk patients.     

Mobilization and Collection of Peripheral Blood Stem Cells: Guidelines for Blood Volume to Process, Based on CD34-Positive Blood Cell Count in Adults and Children

We report 189 mobilizations and 489 collections of peripheral blood stem cells (PBSC) performed in 139 autologous transplantation patients and in 28 donors for allogeneic transplantations whose ages ranged from 2-68 years. We observed a correlation (P < .001; Pearson's coefficient 0.64) between CD34-positive cells and granulocyte-macrophage colony-forming units examined to estimate PBSC. In a subset of 287 collections (97 adults and 49 children) we obtained peripheral blood (PB) CD34-positive cell counts at 2 to 4 hours before leukapheresis. We noted a correlation between PB CD34-positive cell counts before leukapheresis and the number of CD34-positive cells per kilogram of body weight collected in the whole apheresis of the day (P < .001; Pearson's coefficient 0.82). An even better correlation was obtained between PB CD34-positive cells preapheresis and the yield of each individual blood volume (BV) processed (P < .001; Pearson's coefficient 0.87). Healthy donors and patients in each age group behaved similarly. In addition, the collection yield was greater among children than adults. These findings allowed us to develop a simple predictive model to estimate the BV to process for a target dose of CD34-positive cells per kilogram, based on the level of PBSC before apheresis in children and adults.     

The Effects of Different Induction Regimes on Serial Lymphocyte Subsets in Kidney Transplant Recipients: A Single Tertiary Center Experience

BackgroundImmunosuppressive therapy is the backbone of kidney transplantation in preventing acute rejection. T-cell depletion after doses of thymoglobulin is dose-dependent, as are their side effects. At the same time, basiliximab and other maintenance immunosuppressive drugs act at different signals on T lymphocytes. Therefore, studying the pattern of lymphocyte subset depletion depending on the induction regime given at transplantation could be an added tool in managing post-transplant recipients.MethodologyThis prospective observational study recruited kidney transplant recipients from August 2019 through April 2021 at the University of Malaya Medical Centre. Blood tests for lymphocyte subsets were taken at pre-transplant, 1 week, 1 month, 3 months, and 6 months post-transplantation. At transplantation, recipients received either basiliximab, low-dose thymoglobulin (cumulative dose: 1.5 mg/kg), or standard-dose thymoglobulin (cumulative dose: 5 mg/kg).ResultsA total of 39 patients were recruited: 38.5% received basiliximab (15 of 39), 15.4% received low-dose thymoglobulin (6 of 39), and 46.2% received standard-dose thymoglobulin (18 of 39). Absolute lymphocyte counts 1 week post-transplantation were 1.5 ± 0.84 × 10⁹/L for basiliximab, 0.7 ± 0.57 × 10⁹/L for low-dose thymoglobulin, and 0.1 ± 0.08 × 10⁹/L for standard-dose thymoglobulin (P < .001). The CD4+ and CD8+ counts were severely depleted in the standard-dose thymoglobulin group, with a statistically significant differenceup to 6 months post-transplantation. In the low-dose thymoglobulin group, the CD4+ and CD8+ counts were depleted at 1 week post-transplantation and recovered at 1 month post-transplantation. There was no difference in allograft function and incidence of allograft rejection across groups.ConclusionsThe effects on lymphocyte counts, CD4+ and CD8+, vary depending on the type and dose of induction immunosuppression. This could be a guiding tool in managing immunosuppression post-transplantation depending on the patient's immunologic risk.     

Decrease of CD4+CD25+ T cells in peripheral blood after liver transplantation: association with immunosuppression

CD25 (IL-2 receptor alpha-chain) marks a population of CD4-positive T cells with a suppressor phenotype. These CD4+CD25+ regulatory T cells can suppress both effector T cells and antigen-presenting cells and have been identified as a principle regulator of tolerance in experimental transplantation models. In the setting of human liver transplantation, however, little is known about the dynamics of these cells in relation to rejection, tolerance, and immunosuppression. In the current study we determined CD4+CD25+ T cell in blood of liver transplant recipients using flow cytometry and investigated a possible link with immunosuppressive therapies. Peripheral blood mononuclear cells (PBMC) of 27 liver transplant patients (pretransplantation and 12 months posttransplantation) and 16 healthy controls were included. We found that the percentages of CD25+ cells within the CD4 T-cell population was significantly reduced in more than two-thirds of patients 1 year after transplantation. Also the total percentage of CD4-positive T cells declined significantly within this period, making the absolute reduction of regulatory T cells after transplantation even more profound. Comparing PBMC samples of patients and healthy controls revealed an increased percentage of CD4+ T cells in the patients before transplantation, probably related to the chronic liver illness. The reduction in CD4+CD25+ T cells after transplantation was similar for different immunosuppression regiments. All patients, however, received calcineurin inhibitors, suggesting a possible suppressive effect of this therapy on regulatory T-cell levels in peripheral blood. Currently, assays for regulatory T-cell activity are used to further support this hypothesis.     

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。     

Depletion of recipient CD4+ but not CD8+ T lymphocytes prevents the development of cardiac allograft vasculopathy

BACKGROUND: We have described that chimeric rat hearts bearing recipient-type antigen-presenting cells (APCs) do not reject acutely, but develop cardiac allograft vasculopathy (CAV) in untreated recipients. This suggests that CAV is triggered either by CD8+ direct allorecognition or by CD4+ indirect allorecognition. To determine the allorecognition pathway responsible for CAV in this model, recipients of chimeric hearts underwent either CD8+ or CD4+ T cell depletion. METHODS: Chimeric hearts were created via bone marrow transplantation in two fully major histocompatibility-mismatched rat strain combinations. DA recipients were thymectomized and treated with Ox8 and Ox38 murine monoclonal antibodies, which deplete CD8+ and CD4+ T cells, respectively. Chimeric PVG hearts bearing DA APCs, abbreviated PVG(DA), were heterotopically transplanted into recipients undergoing thymectomy alone or recipients undergoing thymectomy plus either CD4+ or CD8+ T cell depletion. RESULTS: PVG(DA) allografts survived 100 days, but developed CAV in thymectomized recipients and in those permanently depleted of CD8+ T cells. In contrast, chimeric hearts transplanted into permanently CD4+ T cell-depleted recipients survived 100 days and demonstrated no evidence of CAV. CONCLUSIONS: In this specific strain combination, recipient CD8+ T cells are neither necessary nor sufficient for the development of CAV, whereas recipient CD4+ T cells are required for the development of CAV. These findings suggest that CAV is dependent on CD4+ indirect allorecognition and that CD8+ direct allorecognition stimulated by nonprofessional APCs plays a minor role.     

Treatment-dependent Loss of Polyfunctional CD8+ T-cell Responses in HIV-infected Kidney Transplant Recipients Is Associated with Herpesvirus Reactivation

Antiretroviral-therapy has dramatically changed the course of HIV infection and HIV-infected (HIV(+)) individuals are becoming more frequently eligible for solid-organ transplantation. However, only scarce data are available on how immunosuppressive (IS) strategies relate to transplantation outcome and immune function. We determined the impact of transplantation and immune-depleting treatment on CD4+ T-cell counts, HIV-, EBV-, and Cytomegalovirus (CMV)-viral loads and virus-specific T-cell immunity in a 1-year prospective cohort of 27 HIV(+) kidney transplant recipients. While the results show an increasing breadth and magnitude of the herpesvirus-specific cytotoxic T-cell (CTL) response over-time, they also revealed a significant depletion of polyfunctional virus-specific CTL in individuals receiving thymoglobulin as a lymphocyte-depleting treatment. The disappearance of polyfunctional CTL was accompanied by virologic EBV-reactivation events, directly linking the absence of specific polyfunctional CTL to viral reactivation. The data provide first insights into the immune-reserve in HIV+ infected transplant recipients and highlight new immunological effects of thymoglobulin treatment. Long-term studies will be needed to assess the clinical risk associated with thymoglobulin treatment, in particular with regards to EBV-associated lymphoproliferative diseases.     

Higher dose of CD34+ peripheral blood stem cells is associated with better survival after haploidentical stem cell transplantation in pediatric patients

Haploidentical stem cell transplantation (SCT) is increasingly used to treat pediatric patients with malignant or nonmalignant hematological disorders. The CD34+ dose of bone marrow or peripheral blood stem cells (PBSCs) has been shown to be an important determinant of the transplant outcome in adults under various preparative regimens. However, knowledge of the effect of the CD34+ dose in pediatric haploidentical SCT is limited. We analyzed the data of 348 pediatric patients (aged 2‐18 years) with acute or chronic leukemia, myelodysplastic syndrome (MDS), and other hematological disorders that received a transplant between 2002 and 2012. The results of multivariate analysis showed that PBSC CD34+ counts greater than 1.01 × 10⁶ kg^?1 improved platelet engraftment, improved overall survival, and reduced nonrelapse mortality. In contrast, a higher PBSC CD34+ dose did not affect the incidence of acute or chronic graft‐versus‐host disease, including engraftment syndrome. These data suggest that a PBSC CD34+ dose greater than 1.01 × 10⁶ kg^?1 is optimal for pediatric haploidentical SCT.     

Rapid establishment of long-term culture-initiating cells of donor origin after nonmyeloablative allogeneic hematopoietic stem-cell transplantation,and significant prognostic impact of donor T-cell chimerism on stable engraftment and progression-free survival

BACKGROUND: Nonmyeloablative allogeneic hematopoietic stem-cell transplantation (NST) allows establishment of donor hematopoiesis without eradication of recipient stem cells by chemoradiotherapy. Quantification of donor chimerism may predict graft failure and relapse. METHODS: We quantified donor long-term culture-initiating cells (LTC-IC) in nine patients during the early phase after NST and lineage-specific donor cells of myeloid (CD33+, CD34+, granulocytes) and lymphoid lineage (CD3+, CD4+, CD8+, CD56+) in 38 patients with a median follow-up of 40 weeks after NST. Conditioning therapy consisted of fludarabine 90 mg/m2 followed by total body irradiation of 2 Gy. RESULTS: Only rapid establishment of donor T-cell chimerism was essential for stable donor engraftment. Patients with less than 90% of donor T cells 4 weeks after NST had a significantly higher risk of relapse, graft rejection, or both (14 of 18 patients) than patients with donor T-cell chimerism of 90% and higher (3 of 20 patients). Although conditioning therapy was nonmyeloablative, a significant decrease of repopulating stem cells defined as LTC-IC was seen after 2 weeks followed by rapid recovery of LTC-IC to pretransplant values. Interestingly, all LTC-IC were from donor origin 2 and 4 weeks after NST, but rapid establishment of donor LTC-IC was not predictive for progression-free survival. CONCLUSIONS: Rapid establishment of lymphoid but not myeloid donor chimerism is a prognostic factor for stable donor engraftment after NST. It seems that an immunologic shield of alloreactive donor T cells is essential for early hematopoietic progenitors.     

Limited efficacy and unacceptable toxicity of cyclophosphamide for the induction of mixed chimerism and renal allograft tolerance in cynomolgus monkeys

To induce mixed chimerism and renal allograft tolerance in cynomolgus monkeys, cyclophosphamide (CP) and total body irradiation (TBI) were compared as part of a nonmyeloablative conditioning regimen. CP induced dose-dependent neutropenia and lymphopenia, but hematopoietic recovery was more rapid than that observed in the TBI group. Absolute B cell counts after CP were significantly higher (P<0.01) than those in the TBI group. With CP, a total dose of 200 mg/kg with CD154 blockade regularly induced multilineage chimerism. Nevertheless, the recipients failed to achieve long-term survival because of rejection (3 of 5), posttransplantation B cell lymphoma (1 of 5), and toxicities of CP (1 of 5). As previously reported, 3 Gy of TBI with either splenectomy or CD154 blockade induced mixed chimerism and renal allograft tolerance, with significantly less morbidity and mortality than that produced by CP. Thus, TBI is more effective and less toxic than CP as part of a nonmyeloablative regimen for the induction of mixed chimerism and renal allograft tolerance in cynomolgus monkeys.     

Murine Mobilized Peripheral Blood Stem Cells Have a Lower Capacity than Bone Marrow to Induce Mixed Chimerism and Tolerance

Allogeneic bone marrow transplantation (BMT) under costimulation blockade allows induction of mixed chimerism and tolerance without global T‐cell depletion (TCD). The mildest such protocols without recipient cytoreduction, however, require clinically impracticable bone marrow (BM) doses. The successful use of mobilized peripheral blood stem cells (PBSC) instead of BM in such regimens would provide a substantial advance, allowing transplantation of higher doses of hematopoietic donor cells. We thus transplanted fully allogeneic murine granulocyte colony‐stimulating factor (G‐CSF) mobilized PBSC under costimulation blockade (anti‐CD40L and CTLA4Ig). Unexpectedly, PBSC did not engraft, even when very high cell doses together with nonmyeloablative total body irradiation (TBI) were used. We show that, paradoxically, T cells contained in the donor PBSC triggered rejection of the transplanted donor cells. Rejection of donor BM was also triggered by the cotransplantation of unmanipulated donor T cells isolated from naïve (nonmobilized) donors. Donor‐specific transfusion and transient immunosuppression prevented PBSC‐triggered rejection and mixed chimerism and tolerance were achieved, but graft‐versus‐host disease (GVHD) occurred. The combination of in vivo TCD with costimulation blockade prevented rejection and GVHD. Thus, if allogeneic PBSC are transplanted instead of BM, costimulation blockade alone does not induce chimerism and tolerance without unacceptable GVHD‐toxicity, and the addition of TCD is required for success.     

Erythropoiesis after nonmyeloablative stem-cell transplantation is not impaired by inadequate erythropoietin production as observed after conventional allogeneic transplantation

BACKGROUND: It is now well established that after conventional allogeneic hematopoietic stem-cell transplantation (HSCT), erythropoietic recovery is impaired because erythropoietin (Epo) production remains inadequate for prolonged periods of time. However, erythropoietic reconstitution after nonmyeloablative SCT (NMSCT) has never been characterized. METHODS: Twelve patients received a nonmyeloablative conditioning regimen consisting of 2 Gy total body irradiation (TBI) alone (n=6), 2 Gy TBI and fludarabine (n=3), or cyclophosphamide and fludarabine (n=3), followed by transplantation of allogeneic peripheral blood stem cells. Graft-versus-host-disease (GvHD) prophylaxis was carried out with mycophenolate mofetil (from day -1 to day 28) plus cyclosporine (from day -1 to day 120 or longer in case of chronic GvHD). Erythropoiesis was quantitated by soluble transferrin receptor (sTfR) levels, and the adequacy of Epo production was evaluated by the observed-to-predicted Epo ratio (O/P Epo). RESULTS: Mean sTfR levels decreased following the conditioning regimen but remained well within the normal range throughout the posttransplant period. The O/P Epo ratio presented an initial surge quite similar to that observed after conventional conditioning. Thereafter, the O/P Epo ratio normalized rapidly, and Epo levels remained adequate during the whole observation period. CONCLUSION: Contrarily to what is observed after myeloablative transplant, Epo levels remained adequate after NMSCT, resulting in normal erythropoiesis. These results suggest that the administration of erythropoietin therapy (rHuEpo) could be less effective after NMSCT than after conventional allogeneic transplant.     

CD8+ T cells contribute to the development of transplant arteriosclerosis despite CD154 blockade

BACKGROUND: The CD40-CD154 receptor-ligand pair plays a critical role in allograft rejection by mediating the activation of endothelial cells, antigen-presenting cells, and T cells. Blockade of this interaction prevents acute allograft rejection and leads to prolonged allograft survival in numerous experimental models, but in most cases indefinite graft survival is not achieved due to evolving transplant arteriosclerosis. In this study, we have used a model of transplant arteriosclerosis to investigate whether CD4+ and CD8+ T cells are differentially affected by CD154 blockade. METHODS: BALB/c (H2d) aortic grafts were transplanted into C57BL/6 (H2b) recipients treated with anti-CD154 monoclonal antibody in the presence or absence of CD8+ T-cell depletion. Histology and morphometric measurements were performed on day 30 after transplantation. RESULTS: Only combined treatment with anti-CD154 and anti-CD8 monoclonal antibodies resulted in a significant reduction of intimal proliferation (33 +/-10% vs. 67+/-14%; untreated control). Administration of either antibody alone did not produce this effect. Thymectomy did not alter the degree of intimal proliferation observed in any of the treatment groups. CONCLUSIONS: Our data provide direct evidence that CD8+ T cells are not targeted effectively by CD154 blockade and that the transplant arteriosclerosis seen after CD154 blockade is not due to recent thymic emigrant T cells.