Cardiac allograft rejection in the absence of macrophage migration inhibitory factor

BACKGROUND: Macrophage migration inhibitory factor (MIF) is a secreted proinflammatory lymphokine essential for elicitation of delayed-type hypersensitivity (DTH) reactions in vivo. We tested whether MIF blockade-absence affected acute or chronic murine cardiac allograft rejection. METHODS: Wild-type (WT) C57BL/6 (B6) mice underwent transplantation with BALB/c hearts with or without blocking anti-MIF antibody, and MIF knockout (KO) B6 mice underwent transplantation with MIF KO BALB/c hearts. Chronic immune injury was induced in WT and KO recipients using donor-specific transfusion and anti-CD40L antibody. RESULTS: Unexpectedly, the blockade or genetic absence of MIF did not prolong graft survival even if recipient T-cell cytotoxicity was additionally impaired. The histologic manifestations of acute and chronic immune injury to the allograft were similar between groups. CONCLUSIONS: MIF is not required for acute or chronic allograft rejection in mice. The findings raise questions about the role of DTH as an important mediator of cardiac allograft injury.     

Transplantation of allogeneic or xenogeneic bone marrow within the donor stromal microenvironment

Successful engraftment of hematopoietic stem cells requires a supportive hematopoietic stromal microenvironment (HSM). Defects in the HSM associated with aplastic anemia, myelofibrosis, or caused by intensive ionizing radiation and chemotherapy generally result in failure of bone marrow (BM) engraftment. Transplantation of donor BM within donor HSM may therefore provide optimal conditions for allogeneic BM transplantation. We have transplanted donor hematopoietic cells together with their own HSM to improve acceptance of allogeneic or xenogeneic BM. The non-myeloablative treatment used induced tolerance to murine allografts and provided conditions for the life-long acceptance of allogeneic HSM. Allogeneic BM transplanted within it's own HSM under the kidney capsule caused less graft-versus-host disease than BM transplanted i.v. Tolerance in mice to xenogeneic (rat) HSM was less complete. Ectopic ossicles were small and contained fewer hematopoietic cells. However, simultaneous transplantation of rat BM and HSM to preconditioned mice improved engraftment of rat BM compared with transplantation of BM alone. Donor hematopoietic cells survived longer on their own HSM than on HSM of recipients.     

利用脊柱骨来源骨髓细胞建立急性移植物抗宿主病模型

目的探讨利用脊柱骨来源骨髓细胞建立小鼠异基因造血干细胞移植(allogeneic hematopoietic stem cell transplantation,Allo-HSCT)急性移植物抗宿主病(aGVHD)模型的可行性。方法选择C57BL/6(H-2b)雄性小鼠为供体鼠,BALB/c(H-2d)雌性小鼠为受体鼠。制备供体鼠的脾细胞和脊柱骨来源骨髓细胞悬液。受体鼠采用药物加小剂量辐照的预处理方式,于移植前8d～移植前4d腹腔注射氟达拉滨(200mg/kg),接着移植前3d～移植前1d腹腔注射环磷酰胺(60mg/kg),最后在移植前进行全身照射(total-body irradiation,TBI),照射剂量为4Gy(戈瑞)。18只受体鼠经预处理后随机分为3组,每组6只:(1)骨髓移植组,只输入1×107个脊柱骨来源骨髓细胞;(2)aGVHD组,输注1×107个脊柱骨来源骨髓细胞和5×106个脾细胞,建立aGVHD模型;(3)空白对照组,不输入任何细胞。观察3组小鼠生存状态及存活率,取aGVHD组与骨髓移植组存活21d的受体鼠进行病理学检查,取aGVHD组移植后21～28d存活的小鼠的脾脏进行流式细胞术检测骨髓细胞嵌合度。结果骨髓移植组小鼠全部存活,可重建造血,单纯输注骨髓细胞不会诱发aGVHD。aGVHD组小鼠出现aGVHD表现,100%发生aGVHD相关死亡,中位生存期为18d;病理检查结果显示符合aGVHD病理表现,移植后21～28d存活的小鼠诊断为供受体混合嵌合状态,符合aGVHD诊断标准。结论用脊柱骨来源骨髓建立的aGVHD模型完全符合标准,且更加经济,适合大规模建模。     

Ganciclovir-sensitive acute graft-versus-host disease in mice receiving herpes simplex virus-thymidine kinase-expressing donor T cells in a bone marrow transplantation setting

BACKGROUND: The use of donor T cells expressing the herpes simplex thymidine kinase (HSV-TK) gene followed by ganciclovir (GCV) treatment could allow for specific modulation of the alloreactivity occurring after bone marrow transplantation. We are presently exploring such an approach in a phase I clinical trial. METHODS: To examine the beneficial effect of administrating HSV-TK-expressing donor T lymphocytes +/- GCV treatment on acute graft-versus-host disease (aGVHD) control, irradiated Balb/c or C57BL/6 mice underwent transplantation with allogeneic bone marrow cells in conjunction with CD3+ allogeneic splenocytes from transgenic mice expressing an HSV-TK transgene. GCV treatment was initiated upon the occurrence of severe aGVHD. RESULTS: GCV treatment resulted in a 40-60% long-term survival rate of GVHD-free recipients having received HSV-TK-expressing T cells, whereas only 0-6% of mice survived without GCV treatment. Lethal aGVHD occurred in all the control animals having received non-HSV-TK-expressing T cells, irrespective of GCV treatment. CONCLUSION: Our results demonstrate that the administration of donor HSV-TK-expressing T cells to hematopoietic stem cell graft recipients followed by GCV treatment at the onset of severe aGVHD significantly reduces aGVHD-induced mortality and results in GVHD-free surviving recipients.     

Macrophage migration inhibitory factor inhibits osteoclastogenesis

MIF is an important regulator of innate and adaptive immunity, which is produced by a variety of cell types including activated T cells and macrophages. We examined the effects of MIF on osteoclastogenesis in bone marrow (BM) cultures from WT and MIF-deficient (KO) mice as well as the bone mass of MIF KO mice.Exogenous MIF inhibited osteoclast formation in BM cultures by decreasing fusion in cells that were treated with M-CSF and RANKL. However, inhibition of OCL formation by MIF treatment was not mediated by fusion-related molecules in heterogeneous bone marrow cultures. BM cultures from MIF KO mice that were treated with M-CSF and RANKL, PTH or vitamin D had significantly increased OCL number compared to cells from WT mice. MIF also significantly inhibited OCL formation in cultures of RAW 264.7 cells that were treated with RANKL. In addition, the number of CFU-GM and Mac-1⁺ cells in the BM of MIF KO mice was greater than in WT controls. Trabecular bone volume (TBV) in the femurs and vertebrae of MIF KO mice was decreased compared to WT mice. In addition, serum bone resorption and formation markers were decreased in MIF KO mice compared to WT mice.These results demonstrate that MIF has inhibitory effects on OCL formation in vitro. We also found that BM cell cultures from MIF KO mice had an increased capacity to form osteoclasts. Furthermore, MIF KO animals had significantly decreased TBV with low turnover. We conclude that MIF is an inhibitor of osteoclastogenesis in vitro, which may regulate bone turnover via indirect mechanism in vivo.     

Bone marrow transplantation in the rat. V. Lymphoid cell subclasses in the target organs during acute graft-versus-host disease

The distribution of white cell subclasses in different lymphoid (bone marrow, spleen, and blood) and parenchymal (liver, skin, lungs, and gut) target organs was studied after bone marrow transplantation in the rat. BN rats were irradiated and transplanted with 60-80 X 10(6) Lew (allogeneic) or BN (syngeneic) bone marrow cells. The recovery of lymphocytes was somewhat elevated in the bone marrow and spleen, slightly decreased in the blood, and markedly higher in the liver and skin in the allograft compared with the syngeneic graft recipient. A mild lymphocytic bronchitis was present in the lungs of the allografted animal, and the gut was hypocellular throughout the observation period. The total recovery of different lymphocyte subclasses; pan T, T helper, T suppressor-killer, class-II-positive cells, and surface-Ig-positive B cells in the different lymphoid organs--i.e., bone marrow, spleen, and blood--was similar in allogeneic compared with syngeneic graft recipients. In the liver and skin, which are the major target organs of acute graft-versus-host disease (aGVHD) in the rat, there was a massive infiltration of different T cell subclasses; high numbers of B cells were also seen in the liver. There was no difference in the T helper/T suppressor-killer ratio in the lymphoid organs or the liver of allograft compared with syngeneic graft recipients; in the skin and lungs the ratio was reduced more in the allograft compared with syngeneic graft recipient, whereas in the gut the situation was the opposite. These observations emphasize regional differences in the structure of inflammation in the different parenchymal target organs of aGVHD in the rat.     

Effect of IL-18 and sIL2R on aGVHD occurrence after hematopoietic stem cell transplantation in some Iranian patients

BACKGROUND: Graft-versus-host disease is one of the major complications after allogeneic bone marrow transplantation, but it is not easy to anticipate the onset. Cytokines released by type 1 T helper cells are thought to play a pivotal role in acute graft-versus-host disease aGVHD. The ability to predict the likely occurrence of graft-versus-host-disease (GVHD) after Hematopoietic Stem cell Transplantation (HSCT) would be extremely valuable. By serially measuring serum levels of soluble IL-2 receptor (sIL-2R), IL-18 and following allogeneic HSCT we tried to define their effect on aGVHD as a complication of transplantation and determine useful markers for aGVHD predictors. SAMPLES AND METHODS: Serum sIL-2R, IL-18, levels were measured by sandwich ELISA in 219 sera samples from 39 patients (with hematological disorders before and after allogeneic HSCT) and 28 controls. All patients received transplants from HLA-identical siblings. RESULTS: 23 (58.9%) patients developed aGVHD (I-IV) and serum levels of sIL-2R and IL-18, in sera drawn before transplantation, in patients with acute graft-versus-host disease (aGVHD(+)), were increased in comparison to patients without acute graft-versus-host disease (aGVHD(-)) and to a control group and there were no significant differences in serum levels of sIL-2R and IL-18 in aGVHD(-) patients and controls. Serum level of IL-18, in aGVHD(+) patients, was increased during days 3-24 after HSCT, and there was a significant difference according to GVHD severity. In majority of patients with acute GVHD (60%), the peak levels of IL-18 and sIL-2R were achieved on day 10 after HSCT and the rise in sIL-2R and IL-18 preceded the clinical signs of GVHD (mean day 15 after BMT). The level of IL-18 in patients with aGVHD strongly correlated with the severity of aGVHD on Day 10 after HSCT. IL-18 level (before HSCT), in patients who received Busulfan and Fludarabin which were used to treat aGVHD, was lower than in patients who received Busulfan and Cyclophosphamide. CONCLUSION: Our data concluded that IL-18 plays an important role in the development of aGVHD and the IL-18 level might be an indicator of aGVHD, reflecting the severity of the disease. These findings suggest that IL-18 may play an important role in the pathogenesis of aGVHD and that measurement of serum IL-18 levels can be a useful indicator of aGVHD.     

Early increased chemokine expression and production in murine allogeneic skin grafts is mediated by natural killer cells

BACKGROUND: Increased expression of chemokine mRNA is observed in allogeneic but not syngeneic skin grafts 3-4 days after transplantation. The recipient cells mediating this early inflammatory response in allografts remain unidentified. METHODS: Isogeneic and allogeneic skin grafts were transplanted to euthymic and athymic nude mice. mRNA expression and protein production of macrophage inflammatory protein-1alpha (MIP-1alpha), MIP-1beta, and the murine homolog of Gro(alpha), i.e. KC, from graft homogenates retrieved 3-4 days posttransplantation was tested by Northern blot hybridization and ELISA. To deplete NK cells, recipients were treated with antiasialo GM1 (ASGM1) antisera or with anti-NK1.1 mAb before transplantation. RESULTS: Expression of KC, MIP-1alpha, and MIP-1beta mRNA was equivalent in C57BL/6 allogeneic skin grafts and BALB/c isografts at day 2 posttransplant. At day 3 posttransplant, chemokine mRNA levels decreased in isografts but were maintained at high levels in the allografts. Increased early chemokine mRNA was also observed in C57BL/6, but not BALB/c++ grafts on BALB/c athymi(nu/nu) recipients. Treatment of allograft recipients with ASGM1 or with anti-NK1.1 antibody eliminated NK cells from the spleen and allograft infiltrating cell populations and decreased early chemokine mRNA levels in allografts 60-70%. Analyses of allograft homogenates indicated increased levels of KC, MIP-1alpha, and MIP-1beta protein at day 4 posttransplant that were decreased in recipients depleted of NK cells. Early chemokine mRNA levels were equivalent in isogeneic and semiallogeneic F1 grafts. CONCLUSIONS: Early chemokine mRNA expression and protein production in allogeneic skin grafts is amplified by recipient natural killer (NK) cells. These results indicate a novel function for infiltrating NK cells in mediating early increased intra-allograft chemokine production and inflammation during the initiation of acute rejection.     

HSP70-hom gene polymorphism in allogeneic hematopoietic stem-cell transplant recipients correlates with the development of acute graft-versus-host disease

BACKGROUND: A number of genetic polymorphisms have been shown to be associated with the outcome after allogeneic hematopoietic stem-cell transplantation (HSCT). In the present study, HSP70-hom polymorphism (+2763 G/A) was analyzed in the patients and donors of allogeneic HSCT in relation to transplantation outcome, susceptibility for generation of severe toxic lesions, and acute (a) graft-versus-host disease (GVHD). METHODS: One hundred thirty-three recipients of allogeneic hematopoietic stem cells and 64 haploidentical and matched unrelated donors were investigated. All these individuals were typed for dimorphism within the HSP70-hom gene (+2763 G/A) with the use of amplification refractory mutation system technique. RESULTS.: Patients with the HSP-AA homozygous genotype presented more frequently with grade II to IV toxic lesions (12 of 14 vs. 61 of 105, P = 0.039) and aGVHD (12 of 16 vs. 56 of 114, P = 0.045). Conversely, DRB1*11 was associated with a lower risk of aGVHD manifestation (10 of 31 vs. 58 of 99, P = 0.009). These contrary associations of HSP-AA and DRB1*11 with the risk of aGVHD were confirmed using logistic regression modeling in multivariable analysis (HSP-AA, odds ratio [OR] = 3.833, P = 0.004; DRB1*11, OR = 0.224, P = 0.048). None of donor HSP genotypes or patient-donor incompatibility within HSP alleles was associated with susceptibility to toxic complications or aGVHD. CONCLUSIONS: Polymorphism of the HSP70-hom gene is associated with the development of posttransplant complications. Recipient HSP-AA homozygous genotype is a risk factor for aGVHD.     

Vascularized bone marrow transplanted in orthotopic hind‐limb stimulates hematopoietic recovery in total‐body‐irradiated rats

Abstract Hematopoietic recovery after bone marrow transplantation (BMT) is reported to be slow with long‐lasting immune deficiency. This may be attributable to lack of a proper microenvironment for hematopoietic cell proliferation and differentiation. We have designed a model in which complete hematopoietic reconstitution of lethally irradiated rats can be achieved by vascularized bone marrow transplantation (VBMT) in an orthotopic hind‐limb graft. The aim of the study was to investigate the process of repopulation of bone marrow cavities and peripheral blood of irradiated rats after VBMT and, in particular, to follow the contribution of grafted BM cells and residual recipient BM cells in hematopoietic regeneration. Lewis hind‐limbs were transplanted orthotopically to totally irradiated (8 Gy) syngeneic sex‐mismatched recipients (VBMT). In the control group 8 × 10⁷ BM cells in suspension were injected intravenously (BMCT). After 10 days BM and peripheral blood (PB) cells were collected from the recipient. For cell subset analysis cytomorphological evaluation of BM smears and flow cytometry of PB cells were performed. Additionally, PCR was performed using specific primers for rat Y chromosome (sex‐determining region Y‐Sry) to detect male (donor or recipient) cells in sex‐mismatched BM graft recipients and the products were analyzed by electrophoresis. VBMT brought about much faster replenishment of nucleated cells in BM and PB than did BMCT. Cytometry analysis of PB cells revealed more lymphocytes in VBMT than in BMCT recipients. The amount of donor DNA of bands corresponding to Y‐Sry was also higher in PB cells of VBMT than of BMCT recipients. The presence of host DNA was observed in PB cells of VBMT rats but was not detected in PB population of BMCT recipients. VBMT is highly effective in hematopoietic reconstitution of irradiated recipients. The fast cell maturation and repopulation may be due to the presence of stromal cells transplanted in a normal spatial relationship with donor hematopoietic cells in hind‐limb graft. Self renewal of radioresistant host cells was seen after VBMT but not after BMCT.     

Impact of disparity of minor histocompatibility antigens HA-1, CD31, and CD49b in hematopoietic stem cell transplantation of patients with chronic myeloid leukemia with sibling and unrelated donors

Despite human leukocyte antigen (HLA) identity between donor and recipient, several patients develop acute graft-versus-host disease (aGVHD) after hematopoetic stem cell transplantation (HSCT) because of minor histocompatibility antigen (mHag) incompatibilities. The impact of multiple mHag disparities on the clinical outcome after HSCT still remains to be determined. We studied the genomic polymorphisms of HA-1, CD31, and CD49b and correlated mHag distribution with the occurrence of aGVHD after HSCT from HLA-matched sibling and unrelated donors. All 163 patients examined in our single-center study underwent HSCT for chronic myeloid leukemia in the first chronic phase. HA-1 and CD31 disparities are associated with increased aGVHD incidence in a subgroup of patients who test HLA-B44 supertype positive in univariate analysis. However, in a multivariate analysis, only increased patient age was confirmed as an independent aGVHD risk factor. Our findings indicate that the impact of mHag disparity on aGVHD development in HSCT from HLA-matched sibling and unrelated donors seems to be subordinated to classic aGVHD risk factors.     

基因修饰骨髓细胞移植后重建造血的实验观察

目的 探索利用基因标记技术观察造血重建的生物学特征。方法 利用脂质体介导将新霉素抵抗基因转导进入小鼠骨髓细胞。然后移植给受致死量照射的同种小鼠。观察受体小鼠造血的重建,并对造血重建后受体鼠的脾及骨髓细胞进行标志基因的检测。结果 移植小鼠健康存尖,并形成脾结节。而未经输注的对照鼠则很快死于骨髓衰竭。同时,移植骨的部分脾及骨髓细胞于Ｇ４１８体系中能够存活,经聚合酶链反应（ＰＣＲ）检测含有Ｎｅｏ＾Ｒ基因     

Effectiveness of Prophylactic Anti-HBV Therapy in Allogeneic Hematopoietic Stem Cell Transplantation with HBsAg Positive Donors

Use of hepatitis B surface antigen (HBsAg) positive donors for allogeneic hematopoietic stem cell transplantation (HSCT) causes serious hepatitis B virus (HBV)-related liver morbidity and mortality in the recipient. We compared the effectiveness of anti-HBV therapy in 29 recipients who underwent HSCT using HBsAg positive marrow (group I) against a historical control group of 25 patients who received HBsAg positive marrow without pre-HSCT prophylaxis (group II). Anti-HBV therapy consisted of lamivudine for HBsAg-positive donors and all recipients (n = 29) as well as HBV vaccination to all HBsAg-negative recipients (n = 10) before HSCT. After transplantation, HBV-related hepatitis was significantly higher in group II than group I recipients [12 of 25 recipients (48%) vs. 2 of 29 recipients (6.9%), p = 0.002] and in recipients whose donors had detectable serum HBV DNA by Digene Hybrid Capture II assay [8 of 14 recipients (57.1%) vs. 6 of 40 recipients (15.0%), p = 0.02]. Six recipients in group II and none in group I died of HBV-related hepatic failure (24.0% vs. 0%, p = 0.01). By multivariate Cox analysis, anti-HBV therapy effectively reduces post-HSCT HBV-related hepatitis (p = 0.01, adjusted hazards ratio 7.27, 95%CI 1.62-32.58). Our data support the use of prophylactic therapy in preventing HBV-related hepatitis after allogeneic HSCT from HBsAg-positive donor.     

Immunological response against allogeneic chondrocytes transplanted into joint surface defects in rats

Rat chondrocytes isolated from the articular-epiphyseal cartilage complex were transplanted into defects prepared in articular cartilage and subchondral bone. Transplants were taken for examination after 3 and 8 wk. Cartilage formed by syngeneic chondrocytes did not evoke formation of infiltrations. Contrary to that, in the vicinity of cartilage produced by allogeneic chondrocytes numerous infiltrating cells were present and cartilage resorption could be observed. Cyclosporine-A (CsA) treatment of recipients of allogeneic chondrocytes only partially suppressed accumulation of infiltrating cells and matrix resorption. Antichondrocyte immune response of chondrocyte graft recipients was studied by evaluation of spleen mononuclear cells (SMC) stimulation in mixed splenocytechondrocyte cultures and by evaluation of antichondrocyte cytotoxic antibodies. No difference in stimulation of SMC from intact rats by syngeneic and allogeneic chondrocytes was observed. Stimulation by allogeneic chondrocytes was slightly but significantly higher in recipients of syngeneic grafts. SMC of allogenic chondrocyte recipients were strongly stimulated by allogeneic chondrocytes. This response was absent in recipients treated with CsA. Spontaneous antichondrocyte cytotoxic antibody activity was detected in intact rats and in recipients of syngeneic grafts. In recipients of allogeneic chondrocytes the antibody response against allogeneic chondrocytes was raised but was statistically not significant owing to the considerable variation in the level of spontaneously occurring antichondrocyte antibodies.     

Recipient bone marrow-derived IL-17 receptor A-positive cells drive allograft fibrosis in a mouse intrapulmonary tracheal transplantation model

IL-17A is implicated in the pathogenesis of chronic lung allograft dysfunction, which limits survival after lung transplantation. While many cells express the IL-17 receptor A (IL-17RA) which is the main receptor for IL-17A, the cellular targets of IL-17A in development of post-transplant fibrosis are unknown. The purpose of this study was to determine whether IL-17RA expression by donor or recipient structural or bone marrow (BM) cells is required for the development of allograft fibrosis in a mouse intrapulmonary tracheal transplantation (IPTT) model. BM chimeras were generated using C57BL/6 and IL-17RA-knockout mice. After engraftment, allogeneic IPTTs were performed using the chimeric and BALB/c mice as donors or recipients. This allowed us to assess the effect of IL-17RA deficiency in recipient BM, recipient structural, donor BM, or donor structural compartments separately. Tracheal grafts, the surrounding lung, and mediastinal lymph nodes were assessed 28 days after IPTT. Only recipient BM IL-17RA deficiency resulted in attenuation of tracheal graft obliteration. In the setting of recipient BM IL-17RA deficiency, T cells and neutrophils were decreased in mediastinal lymph nodes. Additionally, recipient BM IL-17RA deficiency was associated with increased B220⁺PNAd⁺ lymphoid aggregates, consistent with tertiary lymphoid organs, in proximity to the tracheal allograft. In this IPTT model, recipient BM-derived cells appear to be the primary targets of IL-17RA signaling during fibrotic obliteration of the tracheal allograft.     

Major ABO-incompatible hematopoietic stem cell transplantation: study of post-transplant pure red cell aplasia and endothelial cell chimerism

BACKGROUND: In contrast to human leukocyte antigen (HLA) matching, ABO-blood group incompatibility plays a minor role in the success of allogeneic hematopoietic stem cell transplantation (HSCT). Incompatible ABH histo-blood group antigens, expressed on recipient endothelial cells (EC) and donor erythroid progenitor cells, may represent targets for graft-versus-host disease (GVHD) and host-versus-graft reactions, respectively. The aims of the current study were to investigate: (1) red blood cell (RBC) engraftment and (2) EC chimerism as a potential result of replacement of recipient EC by donor bone marrow (BM)-derived EC in a patient following major ABO-incompatible (A to O) and gender-mismatched HSCT, who died at day 350 of severe acute GVHD. METHODS: Blood counts and anti-A/B isoagglutinin titers were analyzed repeatedly. Heart and BM specimens were obtained at autopsy. The expression of ABH histo-blood group antigens was examined by immunhistochemistry, X/Y chromosomes were detected by chromogen in situ hybridization (CISH). RESULTS: RBC engraftment defined as appearance of 1% reticulocytes in the peripheral blood was delayed and correlated with anti-donor isoagglutinin titers. Circulating hematopoietic cells were exclusively of donor origin demonstrating full donor hematopoietic chimerism, whereas EC in heart and BM blood vessels were exclusively of the recipient type. CONCLUSIONS: Pure red cell aplasia (PRCA) after major ABO-incompatible HSCT was caused by anti-A/B isoagglutinins produced by recipient-type plasma cells. Using ABO and gender mismatch for discrimination, heart and BM blood vessels demonstrated no evidence for EC chimerism 11 months after ABO-incompatible HSCT. These findings suggest that EC replacement and chimerism do not represent major mechanisms responsible for tolerance induction after HSCT.     

Multiple donor allotransplantation. A new approach to pancreatic islet transplantation

Currently it is not feasible to isolate sufficient numbers of islets from a single pancreas for clinical transplantation. We examined whether small numbers of islets obtained from multiple donors could be used for transplantation. Islets were isolated from four inbred strains of mice (DBA/2, DBA/1, C3H, and A.SW) by a stationary collagenase digestion and Ficoll separation and transplanted into the renal subcapsular space of streptozotocin-induced diabetic B6AF1 mice. At least 200 handpicked islets were required to produce normoglycemia in syngeneic and allogeneic diabetic recipient mice. None of the mice given 50 islets became normoglycemic within 2 weeks postgrafting. When various numbers of purified islets from a single donor were transplanted, the survival was significantly better for 200-islet allografts than for 800-islet and 400-islet allografts. When a 200-islet composite graft was prepared from four donors (50 fresh handpicked islets from each donor), the survival of the composite graft as measured by sustained normoglycemia in nonimmunosuppressed recipients was dramatic, with 17 of 18 recipients maintaining normoglycemia indefinitely (greater than 200 days). Similarly, when islets isolated from four donors and cultured for various periods were mixed and transplanted (200 islets/recipient) all recipient mice (n = 8) enjoyed indefinite graft survival. Use of higher numbers of purified islets or crude islets in a composite multiple-donor islet allograft was less effective in achieving indefinite graft survival. Thus, transplantation of a composite graft made up with subtherapeutic numbers of islets from multiple histoincompatible donors to provide adequate therapeutic numbers is a practical solution to the lack of islet availability. In addition, composite islet grafts appear to possess immunological advantages, with significantly prolonged survival over that produced by single-donor islet grafts.     

Transplantation tolerance in primates after total lymphoid irradiation and allogeneic bone marrow injection. III. Lymphocyte responsiveness and suppressor cell activity

After total lymphoid irradiation (TLI), allogeneic bone marrow (BM) injection, and organ transplantation in baboons, there is a prolonged period of reduced lymphocyte proliferative responsiveness to polyclonal mitogens and allogeneic lymphocytes. The effect observed is greater with the use of fractionated TLI than after single doses of irradiation. Suppressor cell activity can be demonstrated in vitro in most animals by inhibition of mixed lymphocyte reactivity (MLR) by mitomycin-treated recipient lymphocytes harvested after TLI, with or without allogeneic BM injection, and organ transplantation. Preliminary data suggest the presence of both donor-specific and nondonor-specific suppression, although other interpretations are possible, and suppressor phenomena may not be responsible for the transplantation tolerance observed.     

Dependence of murine obstructive airway disease on CD40 ligand.

BACKGROUND: Human lung transplantation carries a poor prognosis because of chronic rejection in the form of obliterative bronchiolitis syndrome (OBS). Using the mouse model of heterotopic tracheal transplantation, we examined the role of costimulation in the allograft rejection that characterizes obstructive airway disease (OAD). METHODS: C57BL/6 or BALB/c tracheae were implanted into wild-type control, CD28-/-, muMT (B-cell deficient), or CD40L-/- recipient mice. Grafts were explanted from 7 to 42 days posttransplantation and evaluated. RESULTS: Thickening of the basement membrane and a decrease in patent luminal area were first noted at 2 weeks in wild-type allogeneic trachea recipients and to a slightly lesser degree in CD28-/- recipients. In contrast, CD40L-/- recipient mice showed no evidence of cellular infiltrates or fibrosis in transplanted tracheae. To determine whether CD40L interacted with host or donor CD40, CD40-deficient tracheae were transplanted into CD40L+/+, CD40+/+ wild-type mice. Wild-type mice rejected CD40-/- tracheae. Tracheae were transplanted into B-cell-deficient mice to determine the role of B-cell CD40 in chronic pulmonary allograft rejection. The OAD reaction was identical in wild-type and B-cell-deficient mice. CONCLUSIONS: Development of OAD in the mouse trachea transplant model is primarily dependent on CD40L and is relatively CD28 independent. The ability of mice to reject CD40-/- tracheae demonstrated that host, not donor, CD40 is required for rejection. Furthermore, the ability of B-cell-deficient mice to reject allogeneic tracheae demonstrated that B-cell CD40-mediated responses are not required for the development of OAD.     

Deletion of CD74, a putative MIF receptor,in mice enhances osteoclastogenesis and decreases bone mass

CD74 is a type II transmembrane protein that can act as a receptor for macrophage migration inhibitory factor (MIF) and plays a role in MIF‐regulated responses. We reported that MIF inhibited osteoclast formation and MIF knockout (KO) mice had decreased bone mass. We therefore examined if CD74 was involved in the ability of MIF to alter osteoclastogenesis in cultured bone marrow (BM) from wild‐type (WT) and CD74‐deficient (KO) male mice. We also measured the bone phenotype of CD74 KO male mice. Bone mass in the femur of 8‐week‐old mice was measured by micro–computed tomography and histomorphometry. Bone marrow cells from CD74 KO mice formed 15% more osteoclast‐like cells (OCLs) with macrophage colony‐stimulating factor (M‐CSF) and receptor activator of NF‐κB ligand (RANKL) (both at 30 ng/mL) compared to WT. Addition of MIF to WT cultures inhibited OCL formation by 16% but had no effect on CD74KO cultures. The number of colony forming unit granulocyte‐macrophage (CFU‐GM) in the bone marrow of CD74 KO mice was 26% greater than in WT controls. Trabecular bone volume (TBV) in the femurs of CD74 KO male mice was decreased by 26% compared to WT. In addition, cortical area and thickness were decreased by 14% and 11%, respectively. Histomorphometric analysis demonstrated that tartrate‐resistant acid phosphatase (TRAP)(+) osteoclast number and area were significantly increased in CD74 KO by 35% and 43%, respectively compared to WT. Finally, we examined the effect of MIF on RANKL‐induced‐signaling pathways in bone marrow macrophage (BMM) cultures. MIF treatment decreased RANKL‐induced nuclear factor of activated T cells, cytoplasmic 1 (NFATc1) and c‐Fos protein in BMM cultures by 70% and 41%, respectively. Our data demonstrate that CD74 is required for MIF to affect in vitro osteoclastogenesis. Further, the bone phenotype of CD74 KO mice is similar to that of MIF KO mice. MIF treatment of WT cultures suppressed RANKL‐induced activator protein 1 (AP‐1) expression, which resulted in decreased osteoclast differentiation in vitro. We propose that CD74 plays a critical role in the MIF inhibition of osteoclastogenesis. © 2013 American Society for Bone and Mineral Research.