EC:2.1.1.69 - FACTA Search

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

Lymphokine activated killer cells have potent antitumor effect both in vitro and in vivo. They have been reported to suppress bone marrow (BM) progenitor cell activity (PCA) in vitro, thus raising concern about the feasibility of their use after autologous bone marrow transplantation. The present study was carried out to evaluate the effect of LAK cells on BM engraftment in a syngeneic BMT setting in mice. LAK cells supplemented with or without exogenous interleukin-2 therapy did not impair the hematopoietic reconstitution or survival of mice undergoing BMT. LAK cells also did not reduce the PCA of the engrafted BM. LAK cell therapy did not cause graft-versus-host disease. Finally, LAK cells supplemented with IL-2 therapy improved the graft-versus-leukemia effect. These findings suggest that LAK cells plus IL-2 therapy after BMT does not impede hematopoiesis and should be evaluated as an adjuvant therapy with the aim of eradication of minimal residual disease after autologous BMT.
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PMID:Lymphokine-activated killer cells in autologous bone marrow transplantation. Evidence against inhibition of engraftment in vivo. 146 68

Purified NK cells were obtained from mice with severe combined immune deficiency and were activated with human IL-2 (hrIL-2) in vitro to determine if, once activated, these cells could be transferred with compatible bone marrow cells (BMC) and promote marrow engraftment in irradiated allogeneic recipients. After culture with hrIL-2, these cells maintained a phenotypic and lytic spectrum consistent with a pure population of activated NK cells. These activated NK cells were then adoptively transferred with the donor BMC and rhIL-2 into lethally irradiated allogeneic hosts. The addition of NK cells with the BMC allowed for more rapid hematopoietic engraftment as determined through short term studies, and greater donor-derived chimerism with accelerated reconstitution of the B cell population as determined with long term analysis. No evidence of graft-vs-host disease was detected in the recipients receiving the activated NK cells with allogeneic T cell replete BMC and hrIL-2. The mechanism by which the transferred NK cells improved BMC engraftment was at least partly through the abrogation of the host effector cell's ability to mediate resistance to the marrow graft. Thus, the administration of donor-type activated NK cells with BMC and hrIL-2 may significantly augment hematopoietic engraftment and immune reconstitution in the clinical setting of allogeneic BMT without giving rise to graft-vs-host disease.
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PMID:Donor-type activated natural killer cells promote marrow engraftment and B cell development during allogeneic bone marrow transplantation. 157 78

A murine model of minimal residual disease (MRD) was established utilizing the murine B-cell leukemia (BCL1). BALB/c mice inoculated with up to 10(4) BCL1 were cured (greater than 1 year disease-free survival) following administration of intraperitoneal injections of recombinant human IL-2 (10(5) Cetus units x 3/day intraperitoneally x 5 days). Lethally irradiated BALB/c or (BALB/c x C57BL/6)F1 recipients were reconstituted with syngeneic bone marrow cells or T-cell-depleted C57BL/6 bone marrow cells contaminated with 10(4), 10(5), or 10(6) BCL1 to simulate quantitative MRD. Untreated mice died of typical leukemia without exception, whereas a substantial anti-leukemia effect was noted in mice treated by allogeneic spleen cells, IL-2, or particularly a combination of allogeneic spleen cells and IL-2 given concomitantly. Increments of donor-type spleen cells (10(6), 10(7), and 5 x 10(7)) or IL-2 (10(4) U x 2/day x 3 days) were given alone or in combination on days +1, +5, and +9 following Thy 1.2-depleted allogeneic BMT. All adoptive recipients of 10(5) spleen cells obtained from mice inoculated with 10(4) and 10(5) BCL1 treated by a combination of allogeneic spleen cells and IL-2 showed no evidence of disease greater than 100 days. The antitumor effects of allogeneic spleen cells alone and IL-2 alone were also highly significant, although not totally curative in all mice. Allogeneic spleen cells seemed more effective as compared with low dose IL-2 (3 courses of 2 x 10(4) U x 2/day x 3 days). None of the recipients of 10(6) BCL1 could be completely cured under the experimental conditions described without additional chemotherapy, although significant antitumor effects could again be documented following concomitant administration of allogeneic spleen cells and IL-2. Using an experimental model of autologous BMT, recipients of 10(3) tumor cells could also be cured following transplantation of syngeneic spleen cells by high-dose IL-2 (10(5) U x 3/day x 5 days) given at the time lymphocytes were present, optimally at 3 weeks following BMT. Based on encouraging results from experiments using our animal model of MRD, in conjunction with autologous and allogeneic BMT, pilot clinical trials are currently underway, investigating the effect of cytokine-mediated immunotherapy (CMI) in MRD following conventional and high-dose cytoreductive anticancer therapy in conjunction with ABMT. In addition, we are attempting induction of cell-mediated cytokine-activated immunotherapy (CCI) in conjunction with autologous and allogeneic BMT. Prospective randomized clinical trials and longer observation periods are required to assess the full efficacy of these new therapeutic modalities.
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PMID:Immunotherapy of minimal residual disease by immunocompetent lymphocytes and their activation by cytokines. 158 31

Recipients of autologous BMT demonstrate clinically significant immune deficiency, particularly involving the T lymphocytes. While quantitatively the immune system generally returns to normal during the first 3 months, there is a prolonged delay in the recovery of qualitative immune functions. T cell proliferation is impaired immediately after transplantation and slowly recovers over a period of more than 1 year. In addition, a defect has been documented in IL-2 producing cells and may be of major importance in the pathophysiology of this immunodeficiency. However, post-ABMT, PHA-stimulated T cells are TAC+ and are able to respond to exogenous IL-2 in vitro. Very early after ABMT, NK and LAK activities of PBMC normalize but are significantly increased in vitro by IL-2. On this basis, a clinical assessment of rIL-2 administration on the immunological reconstitution of ABMT patients and as consolidation immunotherapy against minimal disease has been initiated in a phase I/II study.
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PMID:Interleukin-2 after autologous bone marrow transplantation as consolidative immunotherapy against minimal residual disease. 234 79

Purified human urinary CSF-1 was used for production of polyclonal CSF antibodies in rabbits. The purified CSF was iodinated by a modified chloramine-T technique with retention of biologic activity. Dilutions of anti-CSF were reacted with 15,000 cpm of 125I-CSF in EDTA-phosphate buffer for 48 hr. Sheep antirabbit serum was added for 3 hr to precipitate the tracer-anti-CSF complex. A 1:1000 dilution of anti-CSF caused 60-90% precipitation of tracer; optimal conditions were observed with a 1:30,000 dilution. Linear displacement curves were obtained with 2-50 U of pure CSF-1. Related hormones did not cross-react in the assay; no displacement was seen with human GM-CSF, IL-1, IL-2, IL-3, EP, LH or FSH. Reactivity was also not observed with murine GM-CSF or IL-3. Ten normal human sera yielded CSF values of 91-138 U/ml in 5 assays. Urine values were 72-105 U/ml. When 32 U of pure CSF-1 was added to normal serum and urine samples, quantitative recovery was observed. Serial assays revealed a rise in serum and urinary CSF during marrow aplasia in a patient undergoing autologous BMT; CSF values returned to normal during the recovery phase. This sensitive and specific radioimmunoassay should prove useful in the further study of CSF-1 responses in vivo.
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PMID:Development of a radioimmunoassay for human macrophage colony-stimulating factor (CSF-1). 266 Jun 70

Nine children with poor prognosis neuroblastoma have been treated by continuous infusion of IL-2 and autologous LAK cells, as described previously by West et al. in adult patients. Six patients were in relapse after high-dose chemotherapy and autologous BMT and three presented with primary refractory disease after conventional therapy. Although patients were very young (median age 6 years; average weight 17 kg), infusion of IL-2, cytapheresis and reinjection of LAK cells appeared feasible with the usual and transient complications observed with IL-2. Haematological toxicity, although reversible, was more important than usually described and due to the presence of bone-marrow metastases in 8 of the 9 patients. Life-threatening toxicity was observed in only one of the admission centres and was probably due to the rapid reinjection of a very large number of activated cells. Two patients presenting with very active disease after high-dose chemotherapy and autologous or allogeneic BMT received IL-2 alone, at 120 days and at 90 days after the graft. The reactivation of grade-II GVHD was the major complication in the patient treated after an allograft, whereas no BMT-related toxicity was observed in the patient treated after the autologous BMT. Immunological modifications induced by IL-2 were very different between these patients. As expected, a preferential outgrowth of NK cells with both NK and LAK activity was observed in the patient treated just after the autograft. In contrast, in the patient treated after an allograft and in the 9 patients in relapse, T lymphocytes remained the major mononuclear cell population with a very large excess of CD8+ T cells. All patients progressed after the first induction cycle with the exception of the only patient treated after autologous BMT who reached a very good partial remission with disappearance of the local tumor and bone metastases. Although very preliminary, these data clearly show that the efficacy of IL-2 largely depends on the patient's immunological status with the optimal effect being observed when IL-2 is given in the first few months following an autograft.
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PMID:A phase-II study of adoptive immunotherapy with continuous infusion of interleukin-2 in children with advanced neuroblastoma. A report on 11 cases. 267 Feb 9

Recipients of both allogeneic and autologous BMT demonstrate clinically significant immune deficiency involving T and B lymphocytes. While quantitative aspects of the immune system generally return to normal in the first 3 to 4 months, there is a prolonged delay in the recovery of qualitative immune functions. T-cell proliferation is impaired immediately after transplantation and recovers after more than 1 year. There is a documented defect in IL-2 producing cells post-BMT, but PHA-stimulated T cells are TAC+. Therefore, addition of IL-2 in vitro may normalize the T-cell proliferation defect. NK and LAK activities normalize very early post-BMT. In the light of these data, the clinical assessment of rIL-2 administration on the immunological reconstitution of ABMT patients and as consolidative immunotherapy is being investigated.
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PMID:Immune reconstitution after bone-marrow transplantation. 267 Feb 11

Cells with the ability to suppress cytotoxic T lymphocyte generation are found in the spleens of whole-body-irradiated (WBI) mixed allogeneic and syngeneic bone marrow transplant recipients in the early weeks after BMT. Previous studies have indicated that suppression is mediated by "null cells" similar to natural suppressor (NS) cells (1), and have ruled out several possible trivial explanations for the suppressive effect. We report here the results of additional experiments designed to assess possible mechanisms of suppression. We compared the cell populations after 5 days' incubation of cultures containing normal responding splenocytes plus irradiated allogeneic stimulator cells, with or without a cocultured suppressive chimeric splenocyte population. The data indicate that total viable cell yields are only slightly reduced, if at all, in suppressed cultures, but that the proportion of T cells is markedly reduced as measured at the end of the incubation period. Splenocytes from early BMT recipients do not appear to proliferate during the suppression of a mixed lymphocyte culture, and such populations represent only 15% of cells at the end of the 5-day incubation period. Suppression is strongest when the suppressive population is added at the initiation of MLC, and is lost if addition is delayed beyond day 3. Suppression can be overcome by T cell growth factor (TCGF)--and, to a lesser extent, by recombinant IL-2 (rIL-2), although resting suppressive populations do not consume appreciable amounts of these lymphokines. These results therefore suggest that suppression in MLC may occur primarily during the induction of helper T lymphocytes.
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PMID:Mechanisms of suppression in mixed allogeneic chimeras. 297 Jan 38

Although administration of rIL-2 post-T depleted allogeneic bone marrow transplantation (TD-BMT) offers the prospect of augmenting immune reconstitution and thereby reducing the risks of infection and relapse, it has been unclear what direct or indirect effects this agent would have on the regenerating myeloid system. We find that addition of 200 IU or rIL-2 to patient lymphocytes obtained within 6 wk of TD-BMT results in a substantial (2 to 3 log) increase in INF-gamma secretion and the production of TNF. Cytokines present in supernatants obtained from IL-2-stimulated patient lymphocytes have two contrasting effects on myeloid cells from normal donors and from marrow recipients. They prime granulocytes for enhanced oxidative metabolism as measured by ability to generate chemiluminescence in response to FMLP, whereas IL-2 added directly to neutrophils has no effect. However, these IL-2-induced cytokines also act to inhibit myeloid progenitor growth and reduce granulocyte macrophage (GM) colony formation by a mean of 53%. Preincubation of supernatants with anti-IFN-gamma antibody partially abrogates both enhancement of granulocyte chemiluminescence and suppression of marrow CFU-GM. Addition of IL-2 directly to recipient marrow also produces inhibition, leading to a 25% reduction of GM-colony growth. This effect is not due to direct interaction between myeloid progenitor cells and IL-2, because it is completely abrogated by removal of CD8 and Leu-7+ lymphocytes from the marrow. Although the suppressive effects on marrow growth in vitro are of particular concern after BMT, the potential of IL-2 to promote granulocyte function, immune reconstitution, and anti-leukemic activity after TD-BMT justify further consideration of IL-2 therapy in this setting.
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PMID:In vitro analysis of the interactions of recombinant IL-2 with regenerating lymphoid and myeloid cells after allogeneic marrow transplantation. 328 34

One of the major problems in the treatment of leukemia with BMT remains leukemia relapse. It has generally been established that allogeneic BMT, compared with autologous BMT, gives rise to a graft-versus-leukemia reaction (GVLR), usually associated with GVHD. To explore a possible role for post-BMT immunotherapy, recombinant human IL-2 therapy has been studied in the Brown Norway acute myelocytic leukemia (BNML), a rat leukemia model relevant for human AML. The antileukemic efficacy of rhIL-2 therapy is studied applying different doses of rhIL-2 after syngeneic or allogeneic BMT. rhIL-2 treatment post-syngeneic BMT showed a small, borderline significant GVLR. Repeated rhIL-2 treatment after allogeneic BMT resulted either in no significant antileukemic effect or in lethal GVHD when 'low' or 'high' doses were administered, respectively. An intermediate dose, however, induced a significant GVLR without the induction of (lethal) GVHD. Transplantation of allogeneic rat BM, which contains only a few lymphocytes, does not result in a significant GVLR or GVHD and thus resembles human HLA-matched allogeneic T cell-depleted (TCD) BMT. In conclusion, from the rat studies presented it appears that the GVLR lost by TCD of the allogeneic graft, may be more than fully compensated by IL-2 treatment post-allogeneic TCD BMT.
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PMID:Interleukin-2 therapy after allogeneic bone marrow transplantation for acute myelocytic leukemia: studies in a relevant rat model for AML. 771 75

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