Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.1.1.69 (BMT)
 2,655 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In our model of murine BMT, the lethal GVHD which develops against DBA/2 host incompatible minor histocompatibility antigens (mHAgs) can be prevented by donor preimmunization before grafting. Recipient mice become long survivors (LS mice) and tolerant to host mHAgs. However, a GVL effect is preserved and mediated by CD8+ CTL able to kill P815 tumor cells in vitro and in vivo. To explain why a GVL exists without GVHD, we compared the CTL activity of LS and B10.D2 donor mice after immunization with DBA/2 spleen cells or with P815 cells. Experimental results indicated that: (1) the level of cytotoxicity for H-2b incompatible cells was similar in LS and B10.D2 mice; (2) CTL recognizing host DBA/2 mHAgs, whose expression is restricted to the spleen or is shared between spleen and P815 cells, were partially unresponsive in LS mice; (3) P815 injection into LS mice predominantly generated CTL specific for antigens restricted to P815 cells, the repertoire of which was not tolerized. Characterization of TCR beta chain showed that the diversity of Vbeta and Jbeta usage by CD8+ T cells activated after P815 injection is considerably restricted in LS mice, compared to B10.D2 donor mice. These results indicated that the GVL effect in LS mice involved mainly T cells specific for tissue-restricted antigens expressed on P815 cells and not on normal DBA/2 spleen cells. In addition, the absence of GVHD may be attributed to the unresponsiveness of CD8+ CTL specific for host mHAgs expressed on DBA/2 spleen cells.
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PMID:CD8+ cytotoxic T cell repertoire implicated in grafts-versus-leukemia effect in a murine bone marrow transplantation model. 1033 53

We analysed T-cell receptor alpha-chain variable region (TCRAV) and T-cell receptor beta-chain variable region (TCRBV) repertoires in peripheral blood mononuclear cells (PBMCs) from 34 recipients of allogeneic bone marrow transplantation (allo-BMT), seven of allogeneic peripheral blood stem cell transplantation and 19 of autologous peripheral blood stem cell transplantation using the quantitative microplate hybridization assay. TCR usage skewed at an early period (6-7 weeks) after BMT. The change was more apparent in allogeneic recipients than in autologous recipients. In particular, a predominant increase was detected in the frequency of VA1-4 (26%, 11 of 41 recipients), VA3-1 (32%) and VB24-1 (28%). Interestingly, acidic amino acid residues frequently followed the arginine residue in complementarity-determining region 3 of BV24S1. We further examined the extent of skew using samples obtained at serial time points after transplantation. The normalization of skewed repertoires occurred over a long period of time (> 8 years). There was a significant difference in the rate of normalization of skewed TCR repertoires between adult and child recipients (P < 0.05). The results suggest that these T cells may have expanded in response to allogeneic antigens, such as miHA (minor histocompatibility antigen), and that altered repertoires are eventually normalized by T-cell regeneration via a thymic-dependent pathway in children.
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PMID:Restricted usage of T-cell receptor alpha-chain variable region (TCRAV) and T-cell receptor beta-chain variable region (TCRBV) repertoires after human allogeneic haematopoietic transplantation. 1092 26

Lineage switch from AML to ALL is an extremely rare phenomenon, and we report the case of an adult diagnosed with AML at 46 years of age who relapsed with ALL. At initial diagnosis, blast cell morphology and immunophenotyping were consistent with the diagnosis of M4-AML. Complete remission was achieved, and the patient underwent autologous BMT. At relapse, six months after ABMT, blast cells were different from those seen at initial diagnosis, for morphology (L2-ALL), cytochemistry, and immunophenotyping. The karyotype was normal at both diagnosis and relapse. No evidence of bcr-abl fusion genes was found by RT-PCR. Monoclonal IgH and TCR gamma gene rearrangement were evidenced by PCR analysis at relapse but not on blast cells at AML diagnosis.
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PMID:Lineage switch from acute myeloid leukemia to acute lymphoblastic leukemia: report of an adult case and review of the literature. 1107 63

Post-transplant lymphoproliferative disorder (PTLD) is uncommonly of T cell origin, especially following BMT. We describe a 13-year-old boy with severe aplastic anemia (SAA) and no evidence of Fanconi's anemia who underwent BMT at 11 years of age using CY 10 mg/kg once daily i.v. on days -5, -4, antilymphocyte globulin (ALG) 30 mg/kg once daily i.v. on days -5 approximately -3 and CsA from day -1 as conditioning. The BMT failed and he received a further peripheral blood stem cell transplant (PBSCT) 240 days after BMT. Conditioning was with CY 50 mg/kg once daily i.v. on days -5 approximately -2, and ALG 15 mg/kg once daily i.v. on days -4 approximately -2. GVHD prophylaxis included CsA and MTX. Engraftment was later confirmed by cytogenetic studies. Desquamation and ulcers of the oral mucosa and mouth angle developed in the 13th month post PBSCT. A buccal mucosa biopsy on day +524 revealed only plasmacytosis. Immunosuppressants were discontinued at that point. Generalized lymphadenopathy, prolonged fever (waxing and waning) and facial swelling developed in the 18th month post PBSCT. A neck lymph node biopsy on day +601 showed T cell lymphoma of diffuse large cell type with monoclonal TCR gamma-chain gene rearrangement. A FISH study showed that the malignant T cells were of recipient origin. EBV in situ hybridization was negative. He did not receive further treatment apart from discontinuation of immunosuppressants. He was followed up in our out-patient clinic and showed good performance 1170 days post PBSCT. We speculate that a different mechanism was operating in the pathogenesis of T cell lymphoma in this case. Risk factors include SAA and two transplants, conditioned with CY and ALG, long term use of CsA and treatment with azathioprine.
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PMID:T cell lymphoproliferative disorder following bone marrow transplantation for severe aplastic anemia. 1108 91

To understand the nature of long-term Th immune responses, we investigated in the present study the TCRBV gene repertoire of CD4(+) T cells specific for the recall antigen tetanus toxoid (TT) in recipients of an allogeneic bone marrow transplantation (allo-BMT) at several time points after transplantation and in their BM donors. We observed that the TCR repertoire of TT-specific CD4(+) Th cells was heterogeneous, and differed between allo-BMT recipients and their respective donors. Some individuals, however, used similar TCR-complementarity-determining region (CDR) 3 motifs that could reflect recognition of and selection by similar promiscuous epitopes of TT. Longitudinal analysis of this TT-specific T cell response revealed that T cells with completely identical TCR were present at several time points after the first analysis in allo-BMT recipients, most probably reflecting long-term stability of at least part of the antigen-specific TCR repertoire. Similar stability of the TT-specific TCR repertoire in time was also noted in the allo-BMT donors. These observations reveal that within a given individual the dominant antigen-specific T cell clones persist in time in an otherwise diverse TT-specific CD4(+) T cell immune response.
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PMID:Longitudinal analysis of T cells responding to tetanus toxoid in healthy subjects as well as in pediatric patients after bone marrow transplantation: the identification of identical TCR-CDR3 regions in time suggests long-term stability of at least part of the antigen-specific TCR repertoire. 1128 90

Donor regulatory T cells (CD3+ alphabetaT-cell receptor [TCR]+) derived from the repopulating host thymus have been shown to be primarily responsible for suppression of GVHD following DLI therapy in murine BMT models. However, natural killer (NK) T cells also have regulatory properties, and a role for NK T cells in suppression of GVH reactivity has not been completely excluded. NK cells may also contribute to the graft-versus-leukemia (GVL) effect associated with DLI therapy. In this study, we used a murine BMT model (C57BL/6 into AKR) to study whether depletion of donor NK cells had any impact on the suppression of GVH reactivity after DLI or on the DLI-induced GVL effect against acute T-cell leukemia. Depletion of donor NK cells was accomplished in vivo by giving DLI-treated bone marrow chimeras multiple injections of anti-NK1.1 monoclonal antibody (MoAb). The chimeras treated with anti-NK1.1 MoAb had significantly fewer splenic NK1.1 cells than nontreated chimeras, and splenocytes from anti-NK1.1-treated mice were deficient in the ability to generate lymphokine-activated lytic activity. Results presented here showed that NK-cell depletion had no effect on the suppression of GVH reactivity after DLI. When DLI-treated chimeras were challenged with an acute T-cell leukemia, NK-cell depletion had no discernible effect on GVL reactivity. These preclinical data suggest that donor NK cells do not have a significant role in the suppression of GVHD after DLI or in the mediation of GVL reactivity induced by DLI.
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PMID:Donor natural killer (NK1.1+) cells do not play a role in the suppression of GVHD or in the mediation of GVL reactions after DLI. 1176 Jan 46

Chronic graft-versus-host disease (cGVHD) is a multiorgan disorder with skin manifestations resembling scleroderma. Since photopheresis, a treatment that induces an anticlonotypic immune response, has proven to be effective in both cutaneous T cell lymphomas with circulating clonal T cells and in cGVHD, we have searched for circulating clonal T cell populations in patients with cGVHD, and determined whether T cell clonality in the blood is associated with therapeutic response. We screened blood samples from 27 patients after HLA-matched allogeneic bone marrow transplantation (allo-BMT), 10 without cGVHD and 17 with extensive cGVHD, for clonal T cell receptor gamma (TCR gamma) gene rearrangements using fluorescent-based polymerase chain reaction (PCR) and automated high-resolution capillary electrophoresis. Amplified populations of clonal T cells with unique TCR gamma gene rearrangements were found in six of 10 (60%) allo-BMT patients without cGVHD and 13 of 17 (76.5%) allo-BMT patients with cGVHD (P = 0.41), as compared to none of 10 (0%) healthy controls. Twelve patients with cGVHD were treated by photopheresis, and the presence of amplified populations of clonal T cells was found to be associated with a cutaneous response to photopheresis, as eight of eight (100%) clone-positive vs none of four (0%) clone-negative patients experienced a clinically significant cutaneous response to treatment (P = 0.001). Our findings suggest that patients with cGVHD that have detectable expanded clonal T cell populations in their peripheral blood, may be more likely to respond to treatment by photopheresis.
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PMID:Identification of amplified clonal T cell populations in the blood of patients with chronic graft-versus-host disease: positive correlation with response to photopheresis. 1237 90

Graft rejection and the toxicity associated with the use of non-specific immunosuppression remain the major limitations in pediatric solid organ transplantation. The induction of tolerance in transplant recipients is an elusive but achievable goal that will decrease the dependence on immunosuppressive agents. BMT is associated with a robust form of donor-specific transplantation tolerance. It achieves a state of chimerism, defined as the presence of donor marrow cells in the recipient. The two major toxicities in conventional bone marrow transplantation that have prevented its clinical application to induce tolerance are the toxicity of ablative conditioning and GVHD. Two forms of chimerism exist: full chimerism and mixed chimerism. In full chimerism, the hematopoietic system of the recipient is replaced by that of the donor following ablative conditioning. Full chimerism is associated with a relatively impaired immunocompetence for primary immune responses and an increased risk of GVHD. In addition, the 7-10% regimen-related mortality associated with ablation could not be accepted in solid organ allograft recipients. In mixed chimerism the donor hematopoietic system co-exists with that of the recipient. Mixed chimerism induces donor-specific tolerance and is associated with superior immunocompetence and a relative resistance to GVHD compared with full chimerism. Moreover, it can be achieved with partial conditioning, thereby reducing the regimen-related morbidity associated with myeloablation. Approaches to establish mixed chimerism using non-myeloablative-conditioning regimens have been aggressively pursued over the past decade. Mixed chimerism can be safely established with minimal conditioning, resulting in a significant reduction in risk compared with ablative conditioning. GVHD is the final hurdle that has prevented the widespread application of chimerism to induce tolerance. Donor T cells are the primary effector cells for GVHD. Although T cell depletion of the donor marrow avoids GVHD, it results in an increase in the rate of graft failure in MHC-disparate recipients. The dichotomy between GVHD and T cell depletion graft failure has recently been dissociated by the discovery of CD8+/TCR- graft FC. Purified HSC engraft readily in syngeneic recipients but not in MHC-disparate allogeneic recipients. The addition of small numbers of facilitating cells permits durable HSC engraftment in allogeneic recipients and avoids GVHD. Using FC to promote HSC engraftment following non-myeloablative conditioning could be a promising approach to establish tolerance in solid organ transplantation. This invited review focuses on recent developments in stem cell chimerism and tolerance that could bring the use of this approach to induce tolerance to solid organ transplantation one step closer to reality.
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PMID:Facilitating cells as a venue to establish mixed chimerism and tolerance. 1473 94

We evaluated mixed chimerism with costimulatory blockade for the achievement murine allogeneic small bowel transplantation (SBTx) tolerance. B6 mice received various combinations of anti-CD8 (day -2) and anti-CD154 mAbs with or without 3Gy total body irradiation (TBI) (day -1), and 20 x 10(6) fully MHC-mismatched B10.A bone marrow cells (BMC, day -1). Heterotopic SBTx was performed on day 0. Chimerism in peripheral blood was followed by flow cytometric (FCM) analysis and the frequency of TCR Vbeta usage was determined by FCM to assess deletion of donor-reactive T cells. All animals without any treatment (n=6) showed acute rejection within 18 days after transplantation. Mice treated with anti-CD8 and anti-CD154 mAbs alone rejected their grafts within 100 days after transplantation (n=10). Mice treated with anti-CD8 and anti-CD154 mAbs, TBI, and BMT achieved long-term multilineage mixed chimerism and accepted small bowel allografts permanently (>350 days) without any evidence of graft-versus-host disease(n=11). There was specific deletion of donor-reactive cells and skin was accepted as allografts from B10.A donors, but 3rd party B10.BR skin was rejected. Donor-specific tolerance was achieved by inducing mixed chimerism with costimulatory blockade in murine SBTx recipients. This approach which provides a reliable method to induce SBTx tolerance, has potential clinical applications.
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PMID:Small bowel transplantation tolerance achieved by costimulatory blockade leading to mixed chimerism. 1748 79

We compared the effects of intraosseous BMT with those of standard i.v. BMT on the efficacy on donor-cell engraftment into the BM and lymphoid organs across an MHC barrier in rats. Twenty-four intraosseous and 24 i.v. BMTs were performed from 48 ACI (RT1(a)) donors to 48 Lewis (RT1(l)) recipients. Each transplant group received either intraosseous or i.v. BMT. Groups I and II served as controls without immunosuppression (n=16); groups III and IV received cyclosporine monotherapy (n=16); and V and VI received alphabeta-TCR monoclonal antibody and cyclosporine A (alphabeta-TCR/CsA) for 7 days (n=16). In each group, four rats received 35 x 10(6) transplanted bone marrow cells (BMCs) and four received 70 x 10(6) cells. All animals survived without GVHD. Mean (+/-s.d.) donor-cell engraftment into BM of recipients after intraosseous BMT was 7.9% (+/-1.3%) in recipients receiving alphabeta-TCR-CsA and 70 x 10(6) BMCs, and 4.2% (+/-1.4%) in recipients after i.v. transplantation. The seeding efficacy of donor cells into lymphoid tissue was greater after intraosseous BMT and alphabeta-TCR-CsA than after standard i.v. transplantation. In our model, intraosseous BMT facilitated donor-cell engraftment under short-term immunodepletive alphabeta-TCR/CsA protocol, which resulted in a temporary state of immune unresponsiveness.
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PMID:Donor-origin cell engraftment after intraosseous or intravenous bone marrow transplantation in a rat model. 1757 7


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