EC:2.1.1.69 - FACTA Search

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)

We have recently demonstrated that mixed xenogeneic chimerism and donor-specific tolerance can be produced across a species barrier using a nonmyeloablative conditioning regimen (1). This regimen involves pretreatment of B10 mice with mAbs against CD4+, CD8+, Thy1+, and NK1+ cells, followed by a low dose (3 Gy) of whole-body irradiation and a higher dose (7 Gy) of local irradiation to the thymus and administration of T cell-depleted (TCD) F344 strain rat BMC. Although initial mixed chimerism and de novo maturation of donor rat T cells can be demonstrated in such animals, chimerism is gradually lost, and is no longer detectable by 6 months following BMT (1). When rat skin was grafted onto such animals 4 months following BMT, however, donor-specific skin graft survival was markedly prolonged, while non-donor type rat skin grafts were rapidly rejected (1). These results suggested that a state of donor-specific T cell tolerance existed, and that loss of chimerism was not due to a T cell-mediated immune mechanism. In order to evaluate the possibility that a humoral mechanism might mediate delayed loss of xenogeneic bone marrow grafts, we have now examined sera at various times for the presence of antibody against donor cells. Groups of animals not receiving the complete tolerizing mAb pretreatment regimen produced antidonor lymphocytotoxic antibody in response to BMT and skin grafting. Flow cytometric studies demonstrated high levels of IgM and of IgG of all subclasses against rat BMC and spleen cells in these control mice immunized by BMT. In contrast, such antibodies were not detectable in sera from animals receiving BMT following pretreatment with the tolerance-inducing mAb regimen. Furthermore, the tolerant animals did not develop cytotoxic antibodies or high levels of IgM or IgG against donor BMC after loss of hematopoietic chimerism. Donor-type skin grafts were eventually rejected, but rejection of these and repeat skin grafts did not lead to a cytotoxic antibody response. Low levels of rat BMC-binding IgM antibody were also detected in sera of tolerant mice, but the intensity of staining of rat BMC was lower than that of control animals receiving conditioning without BMT. These results suggest that a state of tolerance exists among cells responsible for T cell-dependent IgG antibody subclasses and natural IgM antibodies in animals receiving BMT following this nonmyeloablative conditioning regimen.
...
PMID:Humoral tolerance in xenogeneic BMT recipients conditioned by a nonmyeloablative regimen. 158 75

Mafosfamide (ASTA-Z) is a chemotherapeutic agent currently in use for in vitro purging of tumor-bearing human BM cells prior to autologous bone marrow transplantation (ABMT). We tested the efficacy of ASTA-Z against mouse plasmacytoma cells MOPC-315 (MOPC), a model of human multiple myeloma. BALB/c mice were injected intraperitoneally with different doses of MOPC preincubated with ASTA-Z. All control mice receiving > or = 10(4) MOPC intraperitoneally (ip) died within 23 days. All recipients of ASTA-Z pretreated MOPC remained healthy for > 180 days. To simulate the clinical situation, BALB/c mice received lethal doses of 10(3) MOPC ip prior to ABMT. Subsequently, mice were treated with cyclophosphamide 200 mg/kg one day prior to syngeneic BMT with 10(7) BMC containing 10(6) MOPC; 90% of the mice receiving unpurged syngeneic BMC died within 45 days whereas all mice transplanted with ASTA-Z-treated BMC/MOPC mixtures remained disease-free for > 100 days. Our results suggest that a similar approach may be successful in patients with multiple myeloma and residual disease prior to cryopreservation of their BM for ABMT. Bone marrow purging with ASTA-Z is effective and under certain conditions could be critical for prevention of relapse following ABMT, provided that effective elimination of residual disease in the host can be achieved by the conditioning regimen prior to ABMT.
...
PMID:Successful purging of murine plasmacytoma by mafosfamide (ASTA-Z). 801 50

UVB irradiation (700 J/m2) of bone marrow cells (UVB-BMC) before transplantation into lethally gamma-irradiated (10.5 Gy) allogeneic rats prevents graft-versus-host disease (GVHD) and induces a stable complete lymphohematopoietic chimerism. To better understand the underlying mechanism of the development of stable chimerism and induction of tolerance to donor organs in this model, we examined if the addition of T cells or dendritic cells (DC), as antigen presenting cells (APC), would restore the immunogenicity of UVB-BMC in in vitro mixed lymphocyte reaction (MLR) and induce in vivo bone marrow (BM) graft rejection. Whereas gamma-irradiated, unfractionated BMC induce allogeneic T cells to proliferate, UVB irradiation of BMC abolishes the stimulatory capacity of such cells in a primary MLR. Addition of purified T cells, CD4+ T cells, CD8+ T cells or B cells, respectively, failed to restore the capacity of UVB-BMC to stimulate allogeneic T-cell proliferation. In contrast, the addition of only a small number of splenic accessory cells or purified DC, which by themselves were relatively ineffective in stimulating T-cell proliferation, restored the accessory function and the allostimulatory capacity of UVB-BMC. To define the molecular defect induced by UVB irradiation, cytokines were added as costimulatory factors to primary MLRs and the results showed that the addition of interleukin (IL)-2 or IL-6 but not IL-1 or interferon gamma (IFN-gamma) restored the stimulatory capacity of UVB BMC. This finding suggests that UVB may alter the production, and/or utilization of IL-2 and IL-6 either at the membrane or cytoplasmic level. Parallel in vivo studies showed that addition of DC to UVB BM inoculum resulted in failure of BM engraftment, whereas addition of T cells led to development of fatal GVHD, thus suggesting that UVB modulation of accessory cells reduces graft immunogenicity and prevents BMT rejection, while modulation of T cells prevents GVHD. Our data provide evidence that UVB modulation of APC and mature T cells contained within BMC is potentially useful in preventing GVHD without endangering successful engraftment and may serve as a model for induction of adult chimerism and tolerance without the development of GVHD.
...
PMID:Prevention of graft-versus-host disease and bone marrow rejection: kinetics of induction of tolerance by UVB modulation of accessory cells and T cells in the bone marrow inoculum. 845 11

Hematopoietic chimerism has been used in the laboratory to induce life-long immunologic tolerance to donor antigens. The present study demonstrates that mice transplanted with autologous bone marrow cells retrovirally transduced to express HLA-A2.1 develop a significantly depressed immune response to this antigen while retaining normal reactivity to HLA-B7. Retrovirus-mediated transduction was performed using whole bone marrow-producer cell coculture. This approach did not result in significant gene transfer into hematopoietic progenitor cells. Despite this, the antibody response to HLA-A2.1 in mice reconstituted with genetically modified BMC was completely suppressed three months following bone marrow transplantation. Cell-mediated immunity to HLA-A2.1 was partially suppressed in three-fourths of animals tested three months later, although one animal had a CTL profile similar to that an of HLA-A2.1 transgenic mouse. Complete suppression of the antibody-mediated immune response occurred when only one-third of mice had evidence of the introduced genes in their spleen and one-tenth had the introduced sequences in their circulating WBCs by PCR. In conclusion, engineering of BMC to express donor MHC genes may be an alternative to xenogeneic BMT to induce chimerism and tolerance. More efficient transduction of bone marrow progenitor cells may result in more persistent gene expression and long-lasting transplantation tolerance in recipients of genetically modified bone marrow. Successful application of this technology may also be useful in altering immune responses to other external and self antigens.
...
PMID:Use of gene therapy to suppress the antigen-specific immune responses in mice to an HLA antigen. 882 85

Clinical application of approaches to inducing transplantation tolerance that involve bone marrow reconstitution will require achievement of engraftment without major toxicity to the recipient. These requirements are likely to vary according to the type of histoincompatibility between donor and recipient. We have attempted to determine the minimal conditioning required to achieve lasting mixed allogeneic chimerism and tolerance in the presence of a class I MHC disparity by evaluating the host elements that resist alloengraftment. We based our approach on a regimen that was shown to induce mixed chimerism in fully MHC-mismatched strain combinations. Recipient B10.AKM (KkIkDq) mice were treated with 7 Gy thymic irradiation (TI) and 3 Gy whole body irradiation (WBI) and received either anti-CD8 mAb alone or anti-CD4 plus anti-CD8 mAbs before transplantation of K locus-disparate B10.MBR (KbIkDq) marrow. All (27 of 27) animals receiving both mAbs showed lasting multi-lineage mixed chimerism and donor-specific tolerance. In contrast, five of 22 (23%) recipients pre-treated with anti-CD8 mAb alone in the same experiments failed to develop lasting multilineage mixed chimerism, suggesting that the CD4 T cell subset also participates in resistance to class I-mismatched marrow engraftment. We next attempted to determine whether or not host non-T cell elements resist allogeneic engraftment by comparing the minimum number of syngeneic vs allogeneic BMC required to achieve lasting multilineage mixed chimerism. Titrated numbers (10(6) to 10(7)) of B10.MBR (KbIkDq) bone marrow cells were administered to B10.AKM recipients treated with anti-CD4 and -CD8 mAbs, 3 Gy WBI and 7 Gy TI. All recipients of each marrow dose developed lasting multilineage mixed chimerism and showed specific tolerance to B10.MBR skin grafts. The level of donor-type repopulation in recipients of each dose was not lower than that observed in similarly irradiated recipients in an Ly5 congenic, otherwise syngeneic, BMT system. Together, our results suggest that CD4+ T cells contribute to resistance to K locus class I-mismatched marrow allografts and that resistance is mediated only by CD4 and CD8 T cells, with no role for non-T cell host elements.
...
PMID:Alloresistance to K locus class I-mismatched bone marrow engraftment is mediated entirely by CD4+ and CD8+ T cells. 886 36

This study was aimed to eveluate the role of CCR5 on donor cells in recipient models received intensive conditioning, so as provide the scientific evidence for clinical application of allo-HSCT. Lethally irradiated BALB/c mice received allogeneic bone marrow transplants from C57BL/6 mice. Mice divided into 4 groups according to receiving variant donor cells: B6 CCR5 KO group, receiving C57BL/6 CCR5(-/-) mice bone marrow cells and splenocytes; B6 WT BMC group, receiving C57BL/6 mice bone marrow cells and splenocytes; B6 CCR5 KO BMC group, receiving C57BL/6 CCR5(-/-) bone marrow cells alone; B6 WT BMC group, receiving C57BL/6 mice bone marrow cells alone. The result showed that compared to B6 WT BMC group, B6 CCR5 KO group succumbed to acute GVHD at an accelerated rate. Donor CD8(+) T cells expanded to a significantly greater extent in recipients of CCR5 KO, compared with B6 WT control cells. T cells recovered from recipients of CCR5 KO cells produced more IFN-gamma and TNF-alpha and proliferated to a T-cell at a significantly higher level than T cells from recipients of WT cells, indicating that CCR5 plays a role in downregualting donor alloreative CD8(+) T-cells expansion. Histological assessment of the mice indicated pathological lesions in the kidneys and a greater degree of liver pathological changes in mice that received CCR5 KO donor grafts. It is concluded that the knock-out of CCR5 on donor cells results in increase of GVHD and donor CD8(+) T cell expansion, as well as hepatic and renal lesions in allo-HSCT, which indicates that CCR5 is very important in allo-BMT.
...
PMID:[Relationship between CCR5 and acute graft-versus-host disease in murine bone marrow transplantation]. 1709 92

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.
...
PMID:Small bowel transplantation tolerance achieved by costimulatory blockade leading to mixed chimerism. 1748 79