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)

It is thought that natural killer cells may play a role in graft-vs.-host reactions after allogeneic bone marrow transplantation, but the use of NK cell-specific reagents has been limited. In this report, an NK allele-specific monoclonal antibody, anti-NK 1.1, was used to study the impact of in vivo donor NK cell depletion on GVH disease, graft-vs.-leukemia (GVL) reactivity and donor T cell chimerism after allogeneic murine BMT. AKR/J (H-2k) recipient mice were preconditioned with suboptimal irradiation (9 Gy = LD50) and transplanted with major histocompatibility complex-matched B10.BR (H-2k) BM cells with or without added spleen cells as a source of T cells. The addition of increasing numbers of spleen cells to the BM inoculum produced GVHD of varying intensities. The beneficial effect of NK depletion on GVHD was dependent on the intensity of the GVH reaction. Donor NK cell depletion had no effect on the survival of mice with severe GVHD after MHC-matched BMT (B10.BR into AKR) or after MHC-mismatched BMT (B10.BR into DBA/2; H-2k into H-2d). However, donor NK depletion increased survival of AKR hosts given sufficient B10.BR splenic T cells to induce mild-to-moderate GVHD. Ex vivo depletion of donor CD8+ T cells also reduced GVH-associated mortality, but the use of both CD8 and NK depletion offered no improvement over either alone, suggesting an interaction between CD8+ and NK 1.1+ cells. In contrast to CD8 depletion, donor NK depletion did not compromise the rapid and complete establishment of donor T cell chimerism nor the ability of chimeras to mount an effective GVL reaction. Thus, elimination of donor NK cells provides an alternate strategy for reducing GVHD without loss of GVL reactivity following MHC-matched allogeneic BMT.
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PMID:A decrease in graft-vs.-host disease without loss of graft-vs.-leukemia reactivity after MHC-matched bone marrow transplantation by selective depletion of donor NK cells in vivo. 163 18

After marrow transplantation, major histocompatibility complex (MHC)-unrestricted natural killer (NK) lymphocytes are among the first cells to appear in the circulation. After T-cell-depleted bone marrow transplantation (TD-BMT), these cells have an activated pattern of target cell killing; they also secrete lymphokines including gamma-interferon (gamma-IFN), interleukin-2 (IL-2), and tumor necrosis factor (TNF) and may have a significant role as a primary defense against viral reactivation and in the elimination of residual host malignancy. We studied 43 patients with hematologic malignancy, treated by allogeneic TD-BMT, autologous nondepleted BMT, or chemotherapy alone to investigate (a) the mechanisms underlying the generation of these activated killer cells, (b) the range of conditions under which they are produced, and (c) their surface phenotype. We showed that gamma-IFN-secreting activated killer cells with the capacity to kill MHC-nonidentical NK-resistant targets are generated 4 to 6 weeks after either allogeneic TD-BMT or autologous BMT but do not appear after treatment with chemotherapy. Production therefore is not owing to T-cell depletion per se or to host donor alloreactivity, nor is it caused by stimulation by alloantigens contained in blood product support since no significant difference exists between allograft and chemotherapy patients in the number of units of blood platelet support given in the posttreatment period. Because most patients had no evidence of stimulation from virus reactivation/infection, the phenomenon of activation therefore appears to represent posttransplant immune disregulation following repopulation of the host immune system with lymphoid subsets derived exclusively from blood and marrow. Activated killing is predominantly mediated by the CD16+ CD3- subset, but substantial activity remains in the CD16- CD3+ cell fraction. Monoclonal antibodies (MoAbs) that block interaction with class-I MHC molecules at the level of target cell (W6/32 anti-HLA class I) or effector cell (CD8) do not inhibit killing by CD16- CD3+ cells. Activated killer cells may contribute to the lower risk of relapse after marrow transplantation as compared with intensive chemotherapy.
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PMID:Endogenously generated activated killer cells circulate after autologous and allogeneic marrow transplantation but not after chemotherapy. 249 37

Studies of postmyeloablative immune reconstitution have been reported for allogeneic bone marrow transplantation and also for non-T cell-depleted autologous/syngeneic BMT. However, there is a paucity of information regarding immune recovery following T cell-depleted autologous/syngeneic BMT. We have developed a primate transplantation tolerance model in which rhesus monkeys were conditioned with total-body irradiation and extensively T cell-depleted autologous BMT and given a major histocompatibility complex-mismatched heterotopic cardiac allograft. This model provided an opportunity to study peripheral immune recovery following T cell-depleted autologous BMT. Limiting dilution analysis was used to quantify marrow T cells following depletion (2.8% to 25.6% marrow T cells predepletion, 0.00014% to 0.036% residual marrow T cells postdepletion). We found that (1) hematopoietic engraftment was prompt despite extensive marrow T cell depletion, (2) reconstitution of CD4+ helper T cells and CD8+ cytotoxic T cells were substantially delayed (6-12 months) compared with the recovery of CD8+ suppressor T cells, CD16+ NK cells, and CD20+ B cells, (3) distinction between CD8+ cytotoxic T cells and CD8+ suppressor T cells by the CD28 marker was critical in revealing the markedly discrepant recoveries of those subsets, and (4) immune reconstitution resembled that observed in recipients of T cell-depleted allogeneic and non-T cell-depleted autologous/syngeneic BMT, suggesting that the pattern of immune recovery following BMT is not substantially influenced by either allogeneic effects or the number of transferred T cells over a range of values.
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PMID:Cardiac allograft survival across major histocompatibility complex barriers in the rhesus monkey following T lymphocyte-depleted autologous marrow transplantation. IV. Immune reconstitution. 257 81

Cytotoxic T lymphocytes have been implicated as the effector cell mediating graft rejection following human allogeneic bone marrow transplantation. We have studied a BMT patient who rejected haploidentical T cell-depleted marrow. In vitro studies demonstrated that the circulating lymphocytes were CD3+ and CD8+, of recipient origin, and exhibited selective cytotoxicity against donor-specific class I major histocompatibility complex antigens. Cytotoxicity was inhibited by monoclonal antibodies directed against CD3, CD8, CD2, and lymphocyte function-associated antigen-1 on the T cell, and against MHC class I proteins on the target cell. Furthermore, these circulating cells inhibited the in vitro growth and differentiation of enriched donor bone marrow progenitor cells, an inhibition that was partially reversed by anti-CD3 MAb. Donor-specific recipient-derived CTL may mediate resistance to engraftment, and CTL activity may be inhibited by a number of MAb. The implications of these findings for host preparation and treatment are discussed.
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PMID:Regulation of cytotoxic T lymphocyte-mediated graft rejection following bone marrow transplantation. 306 Oct 78

Bone marrow transplantation is an accepted therapy for hematologic malignancies, aplastic anemia, metabolic disorders, and solid tumors. However, graft-versus-host disease (GVHD) and failure of engraftment have limited the widespread application of this technology to nonmalignant disease states. The use of purified bone marrow stem cells has been suggested as an approach to promote engraftment yet avoid GVHD. Although bone marrow stem cells, purified by cell sorting, engraft and repopulate lethally irradiated genetically identical recipients, they do not engraft in major histocompatibility complex (MHC)-disparate allogeneic recipients. We report for the first time the characterization of a novel cell population of donor bone marrow origin, separate from the hematopoietic stem cell, that facilitates engraftment of purified allogeneic bone marrow stem cells in an MHC-specific fashion without causing GVHD. Although 1,000 purified stem cells (c-kit+/Sca-1+/lineage-) reliably repopulate syngeneic mouse recipients, 10 times that number do not engraft in MHC-disparate allogeneic recipients. The addition of as few as 30,000 facilitating cells (CD8+/CD45R+/TCR-) is sufficient to permit engraftment of purified stem cells in MHC-disparate recipients. The cell surface phenotype of this purified cellular population differs significantly from other characterized lineages of lymphoid or myeloid origin. Based on multiparameter rare-events cell sorting, the facilitating fraction is CD8+, CD3+, CD45R+, Thy 1+, class IIdim/intermediate but alpha beta-TCR- and gamma delta-TCR-. This cellular population comprises approximately 0.4% of the total bone marrow and is separate from the hematopoietic stem cell. The coadministration of purified facilitating cells plus stem cells to optimize engraftment yet avoid GVHD may expand the potential application of bone marrow transplantation to disease states in which the morbidity and mortality associated with conventional BMT cannot be justified.
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PMID:Phenotypic characterization of a novel bone marrow-derived cell that facilitates engraftment of allogeneic bone marrow stem cells. 791 63

In the process of T cell differentiation thymocytes undergo positive and negative selections. The positive and negative selections result from interactions between the T cell antigen receptor (TCR) and self peptides presented by the major histocompatibility complex (MHC) molecules. Positive selection generates functional T cells restricted to the self-MHC. Negative selection eliminates or anergies T cells bearing self reactive TCR with high affinity to self peptides plus MHC. In this study, differentiation and selection of thymocytes were analyzed using bone marrow chimeras. It was demonstrated that differentiation of CD4+CD8+ thymocytes to CD4+ or CD8+ mature thymocytes occurred between 12 and 16 days post bone marrow transplantation. When pigeon cytochrome c 43-58 related peptide antigens were injected intrathymically 13 days after bone marrow transplantation, various changes were observed in resultant T cell repertoire. Intrathymic injection of peptides with high affinity to the MHC class II resulted in specific inhibition of T cell responses to the peptides, whereas injection of peptides with low affinity to the MHC induced no alteration. Furthermore, no modification of T cell responses was observed, when these peptides were administered after 14 days post BMT. The present findings demonstrate that when peptides with high affinity to the MHC class II molecules are administered intrathymically at a critical stage of thymocyte differentiation, negative selection is induced in a manner of one peptide vs one T cell clone.
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PMID:[A study on mechanisms of thymic selection by intrathymic administration of antigenic peptides]. 936 68

To study the effects of major histocompatibility complex (MHC) class II expression on T-cell development, we have investigated T-cell immune reconstitution in two MHC class II-deficiency patients after allogeneic bone marrow transplantation (allo-BMT). Our study showed that the induction of MHC class II antigen expression on BM graft-derived T cells in these allo-BMT recipients was hampered upon T-cell activation. This reduction was most striking in the CD8(+) T-cell subset. Furthermore, the peripheral T-cell receptor (TCR) repertoire in these graft-derived MHC class II-expressing CD4(+) and in the CD8(+) T-cell fractions was found to be restricted on the basis of TCR complementarity determining region 3 (CDR3) size profiles. Interestingly, the T-cell immune response to tetanus toxoid (TT) was found to be comparable to that of the donor. However, when comparing recipient-derived TT-specific T cells with donor-derived T cells, differences were observed in TCR gene segment usage and in the hydropathicity index of the CDR3 regions. Together, these results reveal the impact of an environment lacking endogenous MHC class II on the development of the T-cell immune repertoire after allo-BMT.
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PMID:Incomplete T-cell immune reconstitution in two major histocompatibility complex class II-deficiency/bare lymphocyte syndrome patients after HLA-identical sibling bone marrow transplantation. 1038 32

We have previously found that a major histocompatibility complex (MHC) restriction exists between pluripotent hemopoietic stem cells (P-HSCs) and stromal cells. Based on this finding, we have recently found using chimerism-resistant mouse combinations that successful allogeneic (allo) BMT can be executed by recruiting donor bone marrow stromal cells. The strategies include donor bone grafts under the skin, injection of whole bone marrow cells (BMCs) including stromal cells via the portal vein (PV), and injection of whole BMCs directly into the bone marrow cavity (intra-bone marrow [IBM] injection). In this paper, we show how stromal cells play crucial roles in overcoming chimerism-resistant allo BMT.
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PMID:Successful allogeneic bone marrow transplantation. Crucial roles of stromal cells in prevention of graft rejection. 1146 92

T lymphocytes and NK cells play an important role in the graft-versus-host (GVH) disease. IL-12 is known to activate both lymphocyte subpopulations. Here, we examined the effect of IL-12 on the outcome after allogenic bone marrow transplantation (allo-BMT). Experiments were performed in a major histocompatibility complex (MHC)-matched allo-BMT model from DBA/2 to BALB/c mice. We administered IL-12 subcutaneously to recipient BALB/c mice at the day of BMT and 2 days later. At a dose of 200 ng IL-12, mice died between day 4 and day 10. When 50 ng of IL-12 was administered, 50% of the animals died, at a dose of 25 ng all mice recovered. In vivo blocking experiments with antagonistic monoclonal antibodies indicated that the early lethality was mediated by FasL, IFNgamma and TNFalpha. Recognition of third party antigens by donor, but not recipient lymphocytes caused lethality. HE staining of the large intestine of IL-12 treated animals showed a severe mucosal injury associated with infiltrating lymphocytes and apoptotic bodies. In IL-12 treated mice in contrast to untreated control animals, flow cytometry analysis revealed numerous CD3+ T cells and CD11c+ dendritic cells (DC) were found in the large intestine. The interaction of T cells and antigen presenting DC might contribute to the lethality in our system. In light of these findings, the usefulness of IL-12 application for patients after BMT is rather questionable.
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PMID:Rapid lethality of hosts by interleukin-12 following H-2 compatible allogeneic bone marrow transplantation: Reminiscence of gut-associated acute graft-versus-host reaction. 1223 18

Using various autoimmune-prone mice, we have previously shown that conventional allo BMT can be used to treat a range of autoimmune diseases. These findings have recently been confirmed even in humans. However, in humans, the success rate of BMT across major histocompatibility complex(MHC) barriers is lowered by graft-versus-host disease(GvHD), graft rejection, and incomplete T-cell recovery. We have just established a new BMT method in which bone marrow cells(BMCs) are directly injected into the intra-bone marrow(IBM-BMT). We here show that 'IBM-BMT' is the best strategy for allo BMT and also organ allografts to induce persistent tolerance.
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PMID:[New strategies for BMT]. 1251 Mar 55


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