Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The following rare Ph1-positive chromosome constitutions, based on the cytogenetic findings in three cases with acute leukemia, are presented. 1) A hypodiploid karyotype, primarily 43, -X, -7, -8,9p+ and a Ph1, in a patient with acute lymphoblastic leukemia (ALL) in relapse, followed by a complete remission and a normal chromosomal picture and then by the appearance of cells with a 46,XX,Ph1 karyotype. The Ph1 was due to a standard translocation between chromosomes no. 9 and no. 22. 2) The first demonstration of an unusual Ph1-translocation between chromosomes no. 19 and no. 22 in a condition other than chronic myelocytic leukemia (CML), i.e., acute myeloblastic leukemia (AML). 3) The presence of a Ph1 in acute erythroleukemia (EL) due to a translocation between chromosomes no. 4 and no. 22, this apparently being the first description of such a translocation in any disease. The cytogenetic findings, particularly those in the Ph1-positive case of ALL, were evaluated in relation to the cytologic and immunologic features, clinical courses and implications, and the interrelationship between the three conditions (AML, blastic phase of CML and ALL), which have to be considered in cases of Ph1-positive acute leukemia.
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PMID:Chromosomes and causation of human cancer and leukemia. XXV. Significance of the Ph1 (including unusual translocations) in various acute leukemias. 33 21

Proliferating populations of neutrophils, monocytes, eosinophils, erythroid cells, and T-lymphocytes from normal subjects or patients with various diseases can now be analysed by colony formation in semisolid cultures. These cultures accurately determine the number and proliferative activity of the precursor cells of each population and can also be used to monitor the levels of specific regulatory factors (for example, erythropoietin, colony-stimulating factor) in the serum or urine of such patients. Studies using semisolid cultures have shown that the leukemic cells in chronic and acute myeloid leukemia remain dependent on the normal regulator, granulocyte-macrophage colony-stimulating factor, for proliferation. The cultures have proved valuable in the prognostic assessment of acute leukemic patients and in monitoring impending changes in the clinical status of patients with acute or chronic myeloid leukemia or myeloproliferative disorders.
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PMID:In-vitro cloning techniques for hemopoietic cells: clinical applications. 33 9

Neoplastic cells from 253 patients with leukemia and 46 patients with malignant lymphoma were studied for the presence of terminal deoxynucleotidyl transferase (TdT) by biochemical and fluorescent antibody technics. TdT was detected in circulating blast cells from 73 of 77 patients with acute lymphoblastic leukemia, 24 of 72 patients with chronic myelogenous leukemia examined during the blastic phase of the disorder and in cell suspensions of lymph nodes from nine of nine patients with diffuse lymphoblastic lymphoma. Blast cells from six of 10 patients with acute undifferentiated leukemia were TdT positive, but the enzyme was found in only two of 55 patients with acute myeloblastic leukemia. TdT was not detected in other lymphocytic or granulocytic leukemias or in other types of malignant lymphomas. The fluorescent antibody assay for TdT permits rapid and specific identification of the enzyme in single cells. The TdT assay is clinically useful in confirming the diagnosis of acute lymphoblastic leukemia, evaluating patients with blastic chronic myelogenous leukemia, and distinguishing patients with lymphoblastic lymphoma, whose natural history includes rapid extranodal dissemination, from patients with other poorly differentiated malignant lymphomas.
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PMID:Terminal deoxynucleotidyl transferase in the diagnosis of leukemia and malignant lymphoma. 34 33

Of particular interest in the study of cell membrane markers of leukemic cells were cytotoxic and immunofluorescent results obtained in comparing Ia alloantigen and complement receptor (CR) expression on normal leukocytic and leukemic cell types. Using discontinuous Ficoll gradients, Ia alloantigens were found on varying numbers of leukemic myelo- and lymphoblasts, and on the early stages of normal melocytes. Ia alloantigens, however, were not detectable on mature polymorphonuclear cells. This establishes human Ia alloantigens as cell surface differentiation markers. The appearance of complement receptors was observed later than that of Ia alloantigens. CR1 (EAC1-4b) showed up later in the differentiation than CR2 (EAC1-3d). Thus, an immunological discrimination between AML blasts and CML blast crisis blasts appears to be possible: AML blasts are mostly Ia-positive but CR-negative, whilst CML blast crisis cells are only 20-30% Ia-positive and carry complement receptors in at least equal amounts. The AML blast cell would appear as the less-differentiated cell type when compared to the CML blast crisis cells. The picture, however, remains complex since in CML blast crisis at least three different types of blast cells can be identified: an Ia-positive and an Ia-negative myeloid blast as well as an Ia-positive lymphoid blast. The quantitative composition of these three elements within the myeloid differentiation profile can vary somewhat from patient to patient. Furthermore, these studies revealed a disturbed differentiation of leukemic cell types.
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PMID:Classification of leukemic cells by Ia alloantigens and complement receptors. Surface probes for cell differentiation. 37 3

Five cases of Ph1-positive AML were studied. In all cases a Ph1-chromosome was shown with banding techniques to be due to a translocation between chromosomes No. 9 and No. 22. Cases 1 and 4 were found to have more than one Ph1 with evidence of only on Ph1-translocation accompanying other chromosome abnormalities. Two cases represented an unusual pattern of appearance and disappearance of the Ph1-positive clone during their clinical courses: Case No. 2 was originally Ph1-positive (46,XY,Ph1) but two months before his expiration the Ph1-positive clone was completely replaced by a newly developed Ph1-negative clone with an abnormal chromosome No. 21 (46,XY,21q+), whereas case No. 3, primarily Ph1-negative, developed a Ph1-positive clone among the previously karyotypically normal cells one month before death. The Ph1-positive AML cases presented have been discussed in relation to: 1) the genesis and significance of the Ph1-positive clone, 2) differentiation from the blastic phase of CML and 31 the general experience with Ph1-positive acute non-lymphocytic leukemia (ANLL), the world literature of which have been tabulated.
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PMID:Chromosomes and causation of human cancer and leukemia. XXXII. Unusual features of Ph1-positive acute myeloblastic leukemia (AML), including a review of the literature. 37 56

Piperazinedione was administered to 79 patients with solid tumors on an intermittent schedule with single doses of 1.5-36 mg/m2. Courses were usually repeated at 4-week intervals. Twenty-five patients with leukemia were treated at doses of 18-36 mg/m2 (occasionally for 2 successive days) every 1-4 weeks. Of 48 evaluable patients with malignant melanoma, three (6%) achieved partial remission and nine (20%) had stable disease. Eight of 17 (47%) patients with adenocarcinomas and one of two (50%) patients with lymphomas also had stable disease. Six of 14 (43%) patients with acute myelogenous leukemia showed hematologic improvement, as did one of 11 (9%) patients with blast cell crisis of chronic myelogenous leukemia. The principal toxic effect was myelosuppression, which occurred in 69% of the patients with solid tumors. Profound bone marrow aplasia occurred in 19% of the patients, resulting in six deaths (8%). Risk factors for marrow aplasia included extensive prior therapy, prior nitrosoureas, cumulative toxicity from piperazinedione, and abnormal liver function tests. The recommended doses for further studies are 9 mg/m2 for patients with risk factors for marrow aplasia, 12 mg/m2 for patients with prior therapy, 15 mg/m2 for previously untreated patients, and 24-36 mg/m2 for patients with acute leukemia.
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PMID:Phase I-II study of piperazinedione in adults with solid tumors and acute leukemia. 38 Aug 2

A cytotoxic common ALL antiserum (CALLA) specific for leukemic cells of most patients with non-T-cel- acute lymphoblastic leukemia (ALL) and of some patients with chronic myelogenous leukemia (CML) in blast crisis has been reproducibly prepared using cell lines for absorption. CALLA reacts with leukemic cells of 110 of 134 patients (82%) with non-T-cell ALL; 1 of 71 (1%) patients with acute myelogenous leukemia (AML); 2 of 7 patients (29%) with chronic myelogenous leukemia in blast crisis; 7 of 92 patients (8%) with other hematologic malignancies; and with the leukemic cell lines Laz 221 and NALM-1. It does not react with the normal hematopoietic cells, B- or T-cell lines, or cells from 26 patients with T-cell ALL that were tested. CALLA reactivity and periodic acid Schiff (PAS) staining correlate poorly, with CALLA reacting with cells from 86% (64 of 74) of patients with PAS-positive and 76% (29 of 38) of those with PAS-negative non-T-cell ALL. In these patients, CALLA reacts with cells from 89% of those under age 12 (78 of 88); 74% of those aged 12--20 (20 of 27); and 58% of those over 20 (11 of 19). Using only CALLA and antisera specific for Ia-like and T-cell antigens, we can now distinguish most cases of ALL from AML and other hematologic malignancies.
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PMID:Leukemia-associated antigens in ALL. 38 10

Thirteen leukemic patients with disease refractory to conventional chemotherapy were treated with 1.0 to 7.5 g/m2 of Cytosine Arabinoside (Ara-C) over 29 drug cycles. Drug infusions were spaced at 12-hour intervals; a maximum of four doses was administered over 36 hours. After single dose tolerance had been established, three or four dose cycles were given at 2- to 30-day intervals. There were three partial remissions (PR) and one complete remission (CR) in a treatment group of four patients with AML, five with ALL, two with lymphoma converted to leukemic phase, one CML in blast crisis, and one promyelocytic leukemia. Five of the patients were septic and considered terminally ill at the time of treatment. All other patients had evidence of drug responsiveness. The nadir of the white count occurred from 3 to 12 days after treatment, with subsequent recovery of the peripheral granulocyte count between days 12 and 28. Toxicity included nausea and vomiting (GI symptoms) in twelve patients, central nervous system (CNS) disturbances in eight patients, one episode of inappropriate antidiuretic hormone syndromes (SIADH), one of hyperuricemia, and fever in eleven patients. There was no evidence of hepatic or renal dysfunction. These high doses of Ara-C appear useful for treatment of patients with refractory leukemia. Hospitalization is brief and toxicity acceptable.
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PMID:High dose cytosine arabinoside (HDARAC) in refractory acute leukemia. 49 9

Smears of bone marrow aspiration from 82 patients with leukemia and major hematopoietic organs, such as bone marrow, spleen, liver and lymph nodes, obtained from 97 autopsy cases of the disease, were light-microscopically examined. As the results, occurrence of either sea-blue histiocytes or Gaucher-like cells, or of both, was observed in bone marrow smears of 23 patients and in the hematopoietic tissues of 44 out of the examined cases, particularly marked in those of chronic myelogenous leukemia. In acute myelogenous leukemia, these lipid storage cells were also confirmed though less in frequency or degree. Histochemically, the sea-blue histiocytes were substantiated to contain ceroid-like pigments in their cytoplasm uhile the lipid materials stored in the Gaucher-like cells were presumed to be glycolipids. Ultrastructural morphology of the inclusions in the sea-blue histiocytes uas almost consistent with that of ceroid previously reported, but showed more marked variegated and heterogeneous features. Intracytoplasmic inclusions of the Gaucher-like cells differed from those of Gaucher cells seen in Gaucher's disease and were dominated by fibrillar or linear deposits. Transitions from phagocytized leukemic cells to the inclusions characteristic of each type of the cells were traced.
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PMID:Pathological, histochemical and ultrastructural studies on sea-blue histiocytes and Gaucher-like cells in acquired lipidosis occurring in leukemia. 60 94

The present study was undertaken to obtain more precise information about the purine biosynthetic pathway in human blood cells. 5'phosphoribosyl-l-pyrophosphate (PP-ribose-P) amidotransferase was found in cell-free extracts from all leukemic cells and normal lymphocytes and therefore these cells could synthesize the first intermediate of the purine-de-novo-synthesis. Normal leucocytes, erythrocytes and bone marrow cells lack this enzyme system and have an absolute requirement for externally supplied purines via salvage pathway. Leukemic blast cells show different enzyme activities independent of their cell count. Kinetic studies with the crude enzymes showed sigmoidal substrate velocity curves for PP-ribose-P, whereas glutamine shows hyperbolic kinetics. The leukemic cell enzymes from all four donor types (ALL, CLL, AML and CML) are rapidly saturated with low concentrations of PP-ribose-P and less inhibited by the physiological feedback inhibitor, adenosine 5'monophosphate. The crude enzymes of normal spleen lymphocytes and leukemic cells were further purified (10 to 15-fold) and substrate velocity curves for PP-ribose-P and glutamine show now hyperbolic kinetics and double reciprocal plots were linear with and apparent Km for PP-ribose-P of 0.14 mM and for glutamine 2.0 mM. In the presence of different concentrations of AMP, the PP-ribose-P substrate velocity plot changed from a hyperbolic to a sigmoidal curve; no difference in the degree of the inhibition between both partially purified enzymes (normal spleen lymphocytes and leukemic cells from all four donor types) could now be observed.
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PMID:Purine nucleotide synthesis in normal and leukemic blood cells. 64 99


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