UMLS:C0023467 - FACTA Search

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Query: UMLS:C0023467 (acute myeloid leukemia)
35,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Our studies clearly show that significantly longer remission duration was attained in groups of AML patients immunized with neuraminidase treated allogeneic myeloblasts as compared to patients who received chemotherapy alone or neuraminidase treated myeloblasts plus MER. IT is clear that MER, albeit apparently active alone in certain other clinical studies impairs the immunotherapeutic value of neuraminidase treated allogeneic myeloblasts in AML patients. The in vivo and in vitro immunological tests results reflect the host's immunological status in each arm of the protocol and correlate well with the duration of remission achieved with specific vs. combination of specific plus adjuvant immunotherapy.
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PMID:Impact of specific immunotherapy in acute myelocytic leukemia. 16 58

The data presented establish the therapeutic effectiveness of immunotherapy with neuraminidase-treated allogeneic myeloblasts in combination with sustaining chemotherapy in patients with acute myelocytic leukemia. The in vivo and in vitro immunologic tests indicate normal immunocompetence in patients receiving immunotherapy versus control patients treated with chemotherapy alone. These findings correlate well with the improved duration of remission as the direct result of the immunotherapy.
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PMID:Specific immunotherapy with neuraminidase-modified leukemic cells: experimental and clinical trials. 33 Sep 72

The immunogenicity of leukemia L1210 in DBA/2 Ha and 6C3HED lymphosarcoma tumor cells in C3H/f mice was significantly increased after treatment with V. cholerae neuraminidase. DBA/2 Ha and C3H/f mice repeatedly immunized with neuraminidase-treated tumor cells rejected subsequent challenge of 10(7) or 10(6) untreated tumor cells, respectively. Based on the 51Cr microcytotoxicity assay, both strains of mice showed strong complement-dependent antibody titers and cell-mediated immunity. Sera and splenic lymphocytes from immunized C3H/f mice neutralized the tumorigenicity of 6C3HED lymphosarcoma and protected the recipient C3H/f mice against the disease. Immune lymphocytes pretreated with anti-theta sera lost their ability to neutralize the tumorigenicity of lymphosarcoma, and they failed to be stimulated by T-cell mitogens. We studied the effectiveness of chemoimmunotherapy in DBA/2 Ha mice with leukemia L1210. A single near optimal dose of BCNU 2 days after implantation of 10(6) tumor cells increased the survival time. A single immunization with 2 X 10(7) neuraminidase-treated L1210 tumor cells 4 days after cytoreductive therapy increased survival and resulted in cures for 50% of animals. Immunization of mice with neuraminidase-treated tumor cells and MER produced indefinite survival in a larger percentage of mice than did either treatment alone. AKR mice with spontaneous leukemia treated with combination chemotherapy sustained an 180% increase in life-span. Combination chemotherapy plus immunization with neuraminidase-treated syngeneic or allogeneic (Gross virus-induced) E2G leukemia cells were highly effective in prolonging the life-span of the immunized leukemic AKR mice. The experimental data led to clinical trials in acute myelocytic leukemia with neuraminidase-treated a-logeneic myeloblasts. Patients with acute myelocytic leukemia were randomized into two groups after remission induction. The median remission duration of patients on sustaining chemotherapy alone was 19 weeks (8 patients), whereas six of nine patients who received neuraminidase-treated allogeneic myeloblasts remain in remission 79-132 weeks. Statistical analysis of the remission duration and survival of patients who received chemoimmunotherapy versus the control group shows highly significant differences.
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PMID:Therapeutic effectiveness of neuraminidase-treated tumor cells as an immunogen in man and experimental animals with leukemia. 106 51

Normal and malignant myeloids cells are known to express cell surface molecules having in common the carbohydrate antigen lacto-N-fucopentaose-III (LNF-III--termed CD15). We used flow cytometry to examine the variability of CD15 expression in normal cells and acute myeloid leukemia (AML) cells as detected by 24 murine monoclonal antibodies (mAb). Important differences in the levels of binding were observed with the various mAb. Titrations of each mAb were performed to confirm that these differences in binding were due to increased antigen detection and not differences in concn. In studies of CD15 expression on AML cells selected from a large prospective study, anti-CD15-1 (also known as PM-81) showed the highest binding to each case. Neuraminidase was added to cells from seven AML patients that we had previously found to be low in CD15 expression, in order to determine if cryptic CD15 was present on these cells. Neuraminidase enhanced binding of each of the entire panel of mAb on five patients' cells, thus demonstrating the ubiquitous expression of CD15 on AML cells. In two cases, binding of only some of the mAb was increased, indicating exposure of unusual epitopes on those cells. Subpopulations of normal peripheral blood lymphocytes, cells not associated with CD15 expression, also substantially increased their level of binding to some of the mAb after the addition of neuraminidase. Two-color flow cytometry was used to determine the immunologic phenotype of the lymphocytic population that expressed CD15. This technique revealed that 9.5% normal lymphocytes coexpressed the CD15 and CD3 (T cell) antigens. In addition, by gating on large granular lymphocytes we found that 24.4% of these cells coexpressed CD15 (detected by PM-81) and CD2 (sheep erythrocyte receptor), while 50.3% expressed CD15 and CD16 (type III Fc receptor, natural killer cell-associated). This is consistent with the notion that sialylated CD15 is expressed on some natural killer cells and T cells.
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PMID:Expression of the CD15 antigen on normal and leukemic myeloid cells: effects of neuraminidase and variable detection with a panel of monoclonal antibodies. 168 29

Although monoclonal antibodies (MoAbs) to CD15, especially PM-81, react with leukemic blasts from the majority of patients with acute myeloid leukemia (AML), a small subset of patients have cells that are CD15 negative or dim. We determined previously that neuraminidase will increase the reactivity of PM-81 with AML blasts, as well as blasts from many patients with acute lymphoblastic leukemia (ALL). In this report, we describe the laboratory results and clinical course of the first patient with AML whose harvested bone marrow was treated with neuraminidase prior to MoAbs and complement treatment. Neuraminidase increased the percentage of the patient's leukemia cells that reacted with PM-81 from 18% to 90% and more than doubled the percentage of AML blasts that were lysed by PM-81 and complement. The patient suffered no acute toxicity, engrafted rapidly, and was transfusion independent by day 21 post-ABMT. This report demonstrates the probable safety and efficacy of pretreatment of bone marrow with neuraminidase, and increases the number of patients with AML or ALL who may benefit from ABMT using marrow purging with MoAb to CD15.
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PMID:Autologous bone marrow transplantation for acute myeloid leukemia following in vitro treatment with neuraminidase and monoclonal antibodies. 198 28

Two monoclonal antibodies, CMRF-7 and 27, which react with cells of the granulocytic series, were obtained from hybridomas cloned from separate fusions. Biochemical studies indicate that both antibodies are of the CD15 group and react with the antigenic determinant 3 alpha-fucosyl-N-acetyl lactosamine (hapten X) expressed on some glycolipids and several different granulocyte glycoproteins with a wide range of molecular weights. The antigen was found on some promyelocytes and more differentiated granulocytes, including neutrophils and some eosinophils, but not basophils. Monocytes, lymphocytes, and erythrocytes were negative for CMRF-7 but neuraminidase treatment revealed "cryptic" sites on monocytes and some lymphoid cells. The antibody CMRF-7 reacted with the majority of acute myeloid leukemia blasts in the FAB categories M2-M5 but less frequently with M1 blasts and was positive with only 5/43 acute lymphoid leukemias. Immunoperoxidase staining of other normal human tissues indicates that this determinant is found on a range of epithelial cells in skin, the gastrointestinal tract and the genitourinary system. In addition some parts of the central nervous tissue and some endocrine organs stained with these antibodies.
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PMID:The tissue distribution of the 3 alpha-fucosyl-N-acetyl lactosamine determinant recognized by the CD15 monoclonal antibodies CMRF-7 and 27. 289 56

Normal and malignant myeloid cells express a highly immunogenic oligosaccharide, lacto-n-fucopentaose-III (LNF-III), that has been identified by numerous monoclonal antibodies (MoAb). We have been interested in the use of a particular monoclonal antibody to LNF-III, PM-81, in the treatment of patients with acute myelogenous leukemia using the antibody to treat bone marrow in vitro. Following in vitro treatment of bone marrow with PM-81 and another MoAb, AML-2-23, the remaining cells are used as an autograft in a patient treated with high-dose chemotherapy and radiotherapy. In order to enhance the ability of the MoAb to lyse leukemic cells in the remission bone marrow, we have explored the effect of neuraminidase treatment on leukemia cells. In this paper we describe that myeloid leukemia cells expressing low levels of LNF-III by immunofluorescence can be shown to have high levels of LNF-III after neuraminidase treatment. In addition, we show that normal bone marrow progenitor cells do not have cryptic LNF-III antigen, thus allowing the application of this finding to the clinical setting. Moreover, we have shown that leukemia colony-forming cells from one patient with acute myelogenous leukemia express cryptic LNF-III and that after exposure to neuraminidase there was an increased ability of PM-81 in the presence of complement to eliminate these colony forming cells. These data indicate that the LNF-III moiety is almost universally expressed on myeloid leukemia cells and their progenitors but not expressed on normal progenitors. Thus, it may be possible to enhance leukemia cell kill in vitro by neuraminidase treatment of bone marrow.
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PMID:Monoclonal antibodies to carbohydrate antigens in autologous bone marrow transplantation. 328 49

Twenty-three European centers participated in a randomized clinical trial (AML-5) to study the effect of androgens and immunotherapy during maintenance in adult acute myelogenous leukemia. Induction treatment consisted of Adriamycin (doxorubicin) 50 mg/m2 day 1, vincristine VCR 1 mg/m2 day 2, and cytosine arabinoside 80 mg/m2 every 12 hours by push injection days 3-9. Patients in complete remission were randomized into four groups: (1) 6-mercaptopurine 70 mg/m2 days 1-14, methotrexate 15 mg/m2 twice weekly days 15-28, and reinduction with daunorubicin 35 mg/m2 and vincristine 1 mg/m2 day 29; (2) chemotherapy as in group 1 plus stanozolol 0.15 mg/kg/day; (3) 6-thioguanine 70 mg/m2 orally on 4 consecutive days and cytosine arabinoside 80 mg/m2 subcutaneously day 5 every week; and (4) chemotherapy as in Group 3 plus irradiated blast cells treated with neuraminidase. Three hundred forty-eight patients were eligible and 295 were evaluable. The median age was 45 yrs. A complete remission was achieved in 64% of the patients, with 158 complete remissions randomized. Patients not randomized and patients receiving bone marrow transplantation (BMT) were analyzed separately. There was no difference in disease-free survival (DFS) or survival in the four maintenance arms. For patients reaching complete remission, the median DFS was 40 weeks, and median survival was 22 months with 30% surviving at 4 years. The overall survival was 18% at 4 years. There was no beneficial effect for DFS or survival by adding either immunotherapy or androgens to chemotherapy during maintenance. However, patients receiving immunotherapy seemed to have a higher rate of responses to reinduction after relapse than those in the other treatment arms.
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PMID:A randomized comparison of maintenance treatment with androgens, immunotherapy, and chemotherapy in adult acute myelogenous leukemia. A Leukemia-Lymphoma Group Trial of the EORTC. 352 89

Discontinuous density-gradient centrifugation was used to separate myeloid cells of different myelocytic leukemias [acute myelocytic leukemia (AML), chronic granulocytic leukemia (CGL), and chronic granulocytic leukemia in blast crisis (CGL-BC)] into fractions containing granulocytes in individual stages of maturation. The distribution of surface nonspecific cross reacting antigen (sNCA), and cytoplasmic NCA (cNCA) in each cell fraction was estimated by immunofluorescence (IF), and the influence of proteolytic enzymes and neuraminidase on sNCA presence was analyzed. It was found that the percentage of sNCA- and cNCA-positive cells increased in more mature granulocyte fractions; only in the morphologically oldest granulocytes did the number of sNCA-positive cells decrease, probably as a result of the rise of NCA secretion into body fluids; proteolytic enzymes caused an increasing number of sNCA-expressing cells; and neuraminidase treatment usually reduced the percentage of sNCA-positive cells.
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PMID:Distribution of surface nonspecific cross-reacting antigen and influence of proteolytic enzymes on this antigen in myeloid cell series. 352 16

Many granulocyte-specific mouse monoclonal antibodies recognize the carbohydrate sequence 3-fucosyllactosamine, Ga 1 beta 1-4[Fuc alpha 1-3]GlcNAc, which occurs in cell-surface glycolipids and glycoproteins. In general, these antibodies bind to blast cells from most patients with acute myeloblastic leukemia, but not to those with acute lymphocytic leukemia. Neuraminidase treatment, however, increases exposure of this antigen on both myeloid and lymphoid cells. In the present study, the glycolipids from 13 lymphoid and nonlymphoid human cell lines were examined for the presence of unsialylated and sialylated 3-fucosyllactosamine sequences using a thin-layer chromatography immunostaining method. Nine of the cell lines were also tested by indirect immunofluorescence both before and after neuraminidase treatment. None of the six B-cell and T-cell lines had detectable neutral or sialylated glycolipid antigen. In contrast, six out of seven and five out of seven nonlymphoid cell lines had neutral and sialylated glycolipid antigens, respectively. These results agreed, in general, with those found by indirect immunofluorescence. They also represent the first direct demonstration of these sialylated glycolipids on human leukemic cells. Thus, in some cases increased antibody binding to neuraminidase-treated cells can be explained by the presence of sialylated glycolipid antigen.
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PMID:Sialylated glycolipid antigens on human leukemic cell lines. 373 20

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