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)

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.
...
PMID:Lymphokine-activated killer cells in autologous bone marrow transplantation. Evidence against inhibition of engraftment in vivo. 146 68

We investigated the therapeutic effects of a combination of chemotherapy with adoptive immunotherapy on BMT-11 fibrosarcoma in C57BL/6 mice. Although no significant therapeutic effects were brought about by CY alone or LAK.rIL-2 alone, CY plus LAK/rIL-2 brought about significant therapeutic effects such as a reduced proportion of dead mice (63%) and prolongation of the mean survival times of dead mice (64.4 days). We transferred radioactive 111In-labeled effector cells into untreated and CY-treated tumor bearing mice. LAK cell-accumulation (% dose/g) at the tumor site was only 2.7% in untreated mice and 19.7 in CY-treated mice. On the other hand, CTL.rIL-2 therapy exhibited significant therapeutic effects by itself. The accumulation of CTL was 9.1% in untreated tumors and only slightly enhanced by CY-chemotherapy. These results suggest that the therapeutic effects of adoptive immunotherapy depend on the accumulation of transferred effector cells at the tumor site and are augmented by the enhanced accumulation of effector cells after chemotherapy.
...
PMID:[Augmentation of LAK cell-accumulation in tumor tissue and its therapeutic effect after chemotherapy]. 153 Feb 90

In vivo use of rIL-2 autologous BMT may be the means of reproducing a kind of "adoptive immunotherapy" from grafted cells after allogeneic BMT. This approach may enhance the spontaneous generation of cytotoxic T-cells and NK cells which are presumably involved in this immunotherapy. Potential risks of such an approach would be to increase the usual toxicity of rIL-2 and to jeopardize the hemopoietic reconstitution. To determine the feasibility of this approach we have treated 19 poor prognosis patients with a succession of autologous BMT followed 78 +/- 12 days later by a continuous infusion of rIL-2. Eighteen million international units (IU) per m2 per day of Proleukine (CETUS, Amsterdam, The Netherlands) were administrated over 6 or 12 days. No patient died of the procedure. Clinical toxicity related to rIL-2 was not increased. Hemopoietic toxicity, significant both for platelets and granulocytes, was transient. Immune stimulation was dramatic for lymphocytes and subpopulations (CD3+ and NK cells) and for cytolytic functions (NK and LAK activity). This trial establishes the feasibility of administration of high doses of rIL-2, 2 months after autologous BMT. In this setting a 6 day period of continuous infusion of 18 million per m2 per day of Proleukine appears to be a regularly tolerable dosage conducting to a major immune activation and invites further studies to determine the clinical impact of such an approach.
...
PMID:Recombinant interleukin-2 (rIL-2) after autologous bone marrow transplantation (BMT): a pilot study in 19 patients. 181 15

In conclusion, lessons from the animal model of lymphoid leukaemia suggest that in the setting of allogeneic BMT, under certain conditions GVL effects may be separable from GVHD; more specifically, GVL effects may be induced despite development of tolerance of donor cells against allogeneic host alloantigens. The latter phenomenon suggests that either curative GVL effects may be inducible despite subclinical GVHD or alternatively that effector cells of GVL may recognize different tumour-associated targets different from cell surface determinants of 'normal' alloantigens. Alternatively, effector cells of GVL may be distinguished from effector cells of GVHD. It is tempting to suggest that NK and IL2-aspirated NK cells may play a major role as effector cells of GVL in an MHC non-restricted fashion, different from classical CD8+ cytotoxic cells that certainly play a major role in GVHD and GVL. Once proven, the latter hypothesis may help develop new and safer therapeutic approaches since NK cells and products of the NK cell family are unlikely to play a major role, if any, in GVHD. The feasibility of induction of GVL-like effects by MHC non-restricted effector cells, such as that observed by CMI, most likely through cytokine-activated NK cells, seems promising because such effector mechanisms may be utilized clinically through either adoptive transfer of in vitro-activated lymphocytes or activation of lymphocytes in vivo by administration of cytokines such as IL2 and alpha IFN. Similarly, induction of CCI following ABMT may permit establishment of GVL-like effects with no major risk of GVHD. Our animal models suggest that both approaches may be beneficial and perhaps even combined. From a practical standpoint, activation of antitumour effector cells in vivo is much more feasible, in comparison with the cumbersome and expensive technologies for large-scale in vitro manipulation of IL2-activated 'LAK' cells or tumour-infiltrating lymphocytes ('TIL') at dose ranges required for obtaining clinically meaningful responses. No less important is the fact that more potent immunotherapy may be inducible by cytokine combinations (such as IL2 and alpha IFN). We are currently investigating additional cytokine combinations in order to attempt to optimize antitumour effects inducible by allogeneic and syngeneic lymphocytes since it appears logical that amplifying in vivo antitumour responses by multiple cytokine combinations may yield better antitumour effects.
...
PMID:Control of relapse due to minimal residual disease (MRD) by cell-mediated cytokine-activated immunotherapy in conjunction with bone marrow transplantation. 195 88

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.
...
PMID:Interleukin-2 after autologous bone marrow transplantation as consolidative immunotherapy against minimal residual disease. 234 79

Seven lymphocyte populations were expanded from skin samples of patients with acute or chronic GVHD following allogeneic genotypically identical BMT. After amplification without in vitro antigenic stimulation or addition of mitogens, 5 of the 7 cell lines showed a large majority of mature CD4+ T cells (in contrast to published immunopathological data). One cell line showed an equal number of CD4+ and CD8+ cells, and another a predominance of CD4+ cells along with a large number of cells with a phenotype suggestive of non-MHC-restricted CTLs. After in vitro antigenic stimulation, various cytotoxicity patterns were seen: specific antihost cytotoxicity was seen in half the cell lines, NK activity was seen in 5 of the 7 lines, and a strong LAK activity was seen in 1 of the 7 cell lines. These results point to a diversity of cytotoxic effectors involved locally in GVHD and emphasize the need for further study of these local events. The cell lines established now constitute basic functional material for the in vitro study of cellular and humoral interactions at the site of GVHD lesions.
...
PMID:Phenotype and function of T lymphocytes infiltrating the skin during graft-versus-host disease following allogeneic bone marrow transplantation. 265 45

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.
...
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.
...
PMID:Immune reconstitution after bone-marrow transplantation. 267 Feb 11

The transfer of cytotoxic effector cells reduces the risk of relapse after allogeneic BMT. Two murine leukemia cell lines, A20 (B lymphocytic) and WEHI-3 (myelomonocytic), were used to investigate antileukemic effector mechanisms operating independently from graft-versus-host disease (GVHD). Different results were obtained with the two leukemia models. After injection of A20 cells, the majority of Balb/c recipients treated with syngeneic BMT died due to leukemia relapse (89%). The transplantation of MHC-matched DBA marrow resulted in chronic GvHD but did not reduce the risk of relapse (86%). Grafting of MHC-mismatched (but GvH-nonreactive) marrow cells from (C57xBalb)F1 hybrids, however, led to a significantly lower relapse rate (47%, p < 0.05). In vitro testing revealed that F1 cells but not Balb/c or DBA cells exert NK cell activity against A20. The elimination of NK 1.1-positive cells from the graft reduced the antileukemic activity of (C57xBalb)F1 marrow against A20 in vivo. After injection of WEHI-3 leukemia cells, syngeneic BMT cured most of the recipients (62%) and transplantation of (C57xBalb)F1 marrow provided no additional benefit. In contrast to unmanipulated Balb/c and (C57xBalb)F1 cells, which showed no NK activity against WEHI-3 in vitro, IL-2 treated effector cells were highly cytotoxic. Transfer of IL-2 preincubated grafts significantly decreased the relapse rate of WEHI-3 (19 vs. 38%) after syngeneic and allogeneic BMT. Our data indicate that GvL activity can be separated from GvHD. In our murine model, GvL activity appears to depend more on the donors NK/LAK cell activity than on the presence or absence of GvHD.
...
PMID:Natural killer cells as effector cells of graft-versus-leukemia activity in a murine transplantation model. 812 60

The mechanism by which GVHD augments the graft-versus-leukemia (GVL) effect of marrow transplants has not been ascertained. One possibility involves the secondary activation of natural killer (NK) cells by cytokines released during the GVHD process. To evaluate this possibility we have compared NK activity and lymphokine-activated killer cell precursor (LAKp) frequencies in serially sampled PBMC from recipients of unmanipulated autologous or allogeneic marrow with and without active GVHD. NK activity recovered rapidly after BMT and was elevated during episodes of acute GVHD. However, NK activity did not differ between recipients of autologous or allogeneic marrow without GVHD nor was NK activity increased in association with chronic GVHD. Endogenously-activated NK cells were detected only in recipients of allogeneic marrow but this did not correlate with GVHD status. In contrast to NK activity, LAKp frequencies fell below the control range during the first 8 weeks after BMT. By 9-14 weeks the median LAKp frequency was normal and did not differ between the three groups then or later after transplant. We conclude that acute GVHD may serve to increase the lytic activity of NK cells but does not result in increased LAKp. LAKp frequencies are below normal during the first two months after BMT, a finding not previously recognized from bulk culture LAK studies. The role of LAK effectors in GVL may involve more the degree of cellular activation rather than the number of cells activated.
...
PMID:Effect of GVHD on the recovery of NK cell activity and LAK precursors following BMT. 824 89

1 2 Next >>