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)

Leukemic cells from all human chronic granulocytic leukemia (CGL) and some acute myelomonocytic leukemia (AMML) donors are lysed by rabbit antisera to a purified glycoprotein of Friend murine leukemia virus (FLV gp71) in a microcytotoxicity assay. These antisera are not cytotoxic to cells from patients with acute myelocytic leukemia (AML), acute lymphocytic leukemia (ALL), chronic lymphocytic leukemia (CLL), or to peripheral blood lymphocytes from normal donors. A goat antiserum to gradient purified FLV in addition to reacting with cells from CGL and AMML donors also reacted with cells from AML patients and some ALL donors. However, this antiserum failed to react with cells from CLL patients. Peripheral blood and bone marrow leukocytes prepared from leukemic patients in clinical remission failed to react with antisera to FLV and FLV gp71. Absorption experiments demonstrated that the antigen on CGL cells which is reacting with the antiserum to FLV gp71 is also present on normal human platelets and neutrophils. Similar absorption studies showed that the antigen on AML cells detected by the FLV antiserum is not present on normal leukocytes and platelets and appears to be related to the major internal p30 antigens of mammalian RNA tumor viruses. Another antigenic relationship between oncornaviruses and membrane antigens of human leukemia cells was shown by the ability of FLV antigens to absorb the cytotoxic reactivity of nonhuman primate antisera detecting human leukemia-associated antigens. FLV and FLV gp71 antigens were able to absorb all cytotoxic activity of monkey and chimpanzee antisera to human myeloid leukemia antigens when these antisera were tested with CGL cells. These two approaches to an analysis of cross-reactivity indicate that the antigenic determinant(s) detected by the cytotoxic reactions of the FLV gp71 antiserum with human CGL cells is different from the determinant on FLV gp71 which is responsible for the inhibition of the reactivity of simian antisera with CGL cells. Since the goat and rabbit antisera to FLV and FLV gp71 are able to distinguish AML from CGL cells by direct cytotoxicity testing and absorption, they may be valuable reagents for the serological diagnosis of myeloid leukemia. In addition, since peripheral blood cells from AML and CGL patients in clinical remission were seronegative, the antisera may be valuable as management aids. The data in this report indicates that whatever the mechanism of leukemogenesis is in man, cells from CGL and AML patients possess certain membrane antigens which cross-react with FLV structural components such as p30 and gp71.
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PMID:Relationships between membrane antigens of human leukemic cells and oncogenic RNA virus structural components. 5 69

The majority of human lymphocytic and myelocytic leukemia cells express a polymorphic antigen that is found on peripheral blood B-lymphocytes and cultured lymphoblastoid B-cell lines. These B-lymphocyte antigens were detected by 34 human alloantisera that were repeatedly absorbed with pooled platelets to remove all activity against HLA antigens and T-lymphocytes. Absorption studies indicated that a common antigen was present on both B-lymphocytes and positive leukemia cells. Leukemia cells could be subdivided into two groups based on the presence of the B-lymphocyte antigen. Fourteen of 18 acute myelocytic leukemia cells, 10 of 13 acute lymphoblastic leukemia cells, 4 of 6 chronic myelocytic leukemia cells, and 2 of 2 chronic lymphocytic leukemia cells were positive. This group of leukemia cells also reacted with rabbit anti-B-cell sera raised to papain digests of spleen cell membranes. F(ab')2 fragments of the rabbit antsera were shown to specifically block the reactions of the human antisera against B-cells and leukemia cells. These results suggested that the rabbit and human anti-B-cell sera were reacting with identical molecules. This conclusion was supported by immunoprecipitation data.
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PMID:Human B-lymphocyte antigens expressed by lymphocytic and myelocytic leukemia cells. II. Detection by human anti-B-cell alloantisera. 6 14

Normal human granulocyte alloantigens were found on chronic myelogenous, acute myeloblastic leukemia cells, and a cell line of chronic myeloblastic origin (K562). Antigens were detected by human antisera positive for normal peripheral blood granulocytes but devoid of HLA activity. Very few acute lymphoblastic leukemia cells reacted positively, and none of the chronic lymphocytic leukemia cells seemed to bear granulocyte surface antigens. The recognition of these normal tissue isoantigens on myeloblastic leukemia cells is a necessary prerequisite for the identification of "leukemia-specific" of "leukemia-associated" antigens.
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PMID:Human granulocyte antigens detected on leukemia cells and a chronic myelogenous cell line. 7 3

Rabbit or goat antisera directed to ALL, CLL, AML and CML cells were investigated in cytotoxicity tests with different leukaemia and normal cells as targets. After absorptions with erythrocytes and spleen cells from allogeneic donors the antisera killed only leukaemia cells. There was no reaction with remission leukocytes or blood leukocytes from normal donors. Anti-ALL-Sera reacted in 35 out of 49 tests with ALL cells from 13 patients. Apparently the ALL antisera which were directed to the T cell subtype of ALL preferentially affected ALL cells of this subtype. Cross reactions with cells from CLL, AML and CML were not found. Anti-CLL-sera reacted in 10 out of 12 tests with CLL cells from 4 donors, and in 4 out of 20 tests with ALL cells from 7 donors and also with the cells of a CML patient. AML cells from two patients were not killed. Antisera against AML and CML showed extensive cross reactions with cells of myelocytic and lymphocytic leukaemias. Absorption tests demonstrated the presence of two antibody specificities in AML antisera, one of which being directed to a common antigen of AML and ALL cells and another against an antigen of myelocytic leukaemia cells.
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PMID:Specificities of heterologous antisera against human leukaemia cells. 1. Reactions against leukaemia cells. 8 65

Antisera against human acute myelocytic leukaemias were tested in complement-dependent in-vitro cytotocity tests against leukaemia cells and normal cells as targets. After absorption with erythrocytes and spleen cells from allogeneous donors the antisera reacted with leukaemia cells, but not with leukocytes from bone marrow and the peripheral blood of children in remission, lymphocytes from healthy donors, enriched B-lymphocytes, enriched T-lymphocytes, PHA-induced blasts and cord blood lymphocytes. Extensive cross reactions were obtained in the tests against leukaemia cells. The antisera reacted not only with AML cells, but also with ALL, CLL, and CML cells. It was possible to remove the cross-reactivity with ALL cells through absorption with ALL cells or with fetal tissue, and to remove the cross reactivity with CLL cells through absorption with CLL. A complete absorption of the anti-AML sera was possible with AML and CML cells. After absorption with fetal tissue and CLL cells the antisera showed exclusively specificity for myelocytic leukaemias. Thus, AML cells contain three leukaemia-associated membrane antigen components: an antigen of fetal origin, a "CLL-specific" antigen, and an antigen that occurs on myelocytic leukaemias.
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PMID:Human leukaemia-associated antigens expressed by acute myelocytic leukaemia cells and their detection by heterologous antisera. 8 82

Antisera from rabbits and goats against subtypes of acute lymphocytic leukaemia (ALL with T-cell markers, ALL with B-cell markers, Non-T-non-B ALL) were tested for their specificity in complement-dependent in-vitro cytotoxicity testing. After absorption of the fivefold diluted antisera with erythrocytes and spleen cells of allogenous donors they reacted with ALL cells, but not with leukaemias of other types (AML, CLL, CML), lymphocytes of healthy donors, enriched B-lymphocytes, enriched T-lymphocytes, PHA-stimulated lymphocytes, cord lymphocytes and bone marrow lymphocytes of patients in remission. In the reactions of the antisera against ALL cells the subtype of ALL is of major importance: Six rabbit antisera and one goat antiserum against T-subtype ALL reacted in all 19 tests with the leukaemia cells of 5 patients with T-cell ALL and in all 9 tests with thymocytes of 3 donors, but only in 14 out of 41 tests with the leukaemia cells of 14 Non-T-non-B ALL patients. One antiserum against a B-subtype ALL lysed B-cell ALL (1/1), but not T-cell ALL (0/3), Non-T-non-B-cell ALL (1/5) and thymocytes (0/2). Four antisera against Non-T-non-B-subtype ALL reacted in 22 out of 46 tests with the Non-T-non-B cells of 17 ALL patients, but did not react with the leukaemia cells of 4 children with T-cell ALL (0/16), one child with B-cell ALL (0/1) thymocytes of 2 donors (0/4). The reactions of the anti-ALL sera with fetal liver cells, complete absorbability of the antileukaemic activity of the antisera with fetal tissue and the reactions of an anti-fetal serum with ALL cells point to the existence of fetal antigen components as leukaemia-associated antigens.
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PMID:Human leukaemia-associated antigens expressed by acute lymphocytic leukaemias and their detection with heterologous antisera to T, B-, and non-T-non-B subtype AL blasts. 8 83

Initial rates of accumulation (Vi) of [3-14C] alpha-aminoisobutyric acid (AIB) by human leukemic leukocytes increased markedly and progressively during 240 minute incubations in amino acid-deficient media. Absolute increments were greater in blast cells from patients with acute lymphoblastic leukemia and with acute myeloblastic leukemia than in lymphocytes from patients with chronic lymphocytic leukemia, but per cent increments did not differ. Time-related increases appear to be restricted to an active mechanism for AIB entry and could not be attributed to cell damage, concomitant alterations in the incubation media, or progressive reduction in transinhibition of AIB entry. Studies with two cell populations revealed these increases to be associated with an augmented Vmax and a reduction in apparent Km, suggesting enhanced capacity and affinity of the transport system for AIB. Time-related increases failed to develop in two chronic lymphocytic leukemia (CLL) lymphocyte populations and were partially reduced in two leukemic blast cell populations during continuous exposure to high extracellular AIB concentrations. Hence, this phenomenon may represent an adaptive response to environmental amino acid deprivation. Adaptation may involve de novo protein and RNA synthesis, since it was not seen in cells which were treated with cycloheximide or actinomycin D. However, unlike previous observations in nonmalignant cells, once triggered, the adaptive response was not completely suppressed in leukemic cells which underwent a large degree of adaptation.
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PMID:Adaptive enhancement of amino acid transport in human leukemia leukocytes: studies with alpha-aminoisobutyric acid. 17 69

The incidence of amoeboid movement configuration (AMC), a cell shape suggestive of cell locomotion at the moment of fixation, has been studied in the tumour cells of bone marrow smears from leukaemia patients at the time of diagnosis. The groups of patients with CML (n = 8), ALL (n = 5) and CLL (n = 9) were small, and the incidences of AMC were close to those found in the corresponding cell lines from healthy probands. In 39 patients with AML, the incidence of AMC was higher than in the other cell lines investigated. A positive skew distribution of AMC values and a positive significant correlation between incidence of AMC were found at the time of diagnosis and subsequent survival of the patients with AML, in spite of differences in treatment. It is suggested that this positive correlation may be due to an immune reaction of the patients against their tumour cells.
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PMID:Amoeboid movement configuration in tumour cells of bone marrow smears from patients with leukaemia. Incidence and significance. 26 78

We have radiolabelled surface glycoproteins of different types of leukemic cell. The labelled proteins were separated by polyacrylamide slab gel electrophoresis and visualized by fluorography. Surface glycoprotein patterns discriminatory for acute lymphocytic leukemia (ALL), chronic lymphocytic leukemia (CLL), acute myeloid leukemia (AML) and chronic myeloid leukemia (CML) were found. We conclude that the analysis of the surface glycoprotein profile provides a useful method for the classification of leukemic cells according to cell type and stage of differentiation.
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PMID:Cell surface glycoprotein analysis: a diagnostic tool in human leukemias. 28 25

The phenomenon of premature chromosome condensation (PCC) was used to compare the bone marrow proliferation characteristics of 163 patients with various forms of leukemia prior to the initiation of new therapy. The proliferative potential index (PPI, or fraction of G1 cells in late G1 phase) and the fraction of cells in S phase was determined and compared to the type of disease and the bone marrow blast infiltrate for each patient. Previously untreated patients with acute leukemia exhibited an average PPI value three times that of normal bone marrow (37.5% for acute myeloblastic leukemia [AML], acute monomyeloblastic leukemia [AMML], or acute promyelocytic leukemia [APML] and 42% for acute lymphocytic leukemia [ALL] or acute undifferentiated leukemia [AUL]). Untreated chronic myelogenous leukemia (CML) patients showed intermediate PPI values (25.2%), whereas CML patients with controlled disease exhibited nearly normal PPI values (14.6%). On the other hand, blastic-phase CML patients exhibited PPI values closer to that observed in patients with acute leukemia (35.4%). Seven patients with chronic lymphocytic leukemia (CLL) exhibited even higher PPI values. No correlations were observed between PPI values, fraction of cells in S phase, and marrow blast infiltrate. For untreated acute disease patients, PPI values were prognostic for response only at low and high PPI values. These results suggest that the PCC-determined proliferative potential is a biologic reflection of the degree of malignancy within the bone marrow.
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PMID:Premature chromosome condensation studies in human leukemia. I. Pretreatment characteristics. 29 41

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