Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023467 (acute myeloid leukemia)
35,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The c-fms protooncogene product was identified as the CSF-1 or M-CSF receptor, a polypeptide growth factor that plays a major role in myelomonocytic differentiation. This led us to look for expression of c-fms in fresh acute myeloid leukemia (AML) cells, using Northern blot analysis. c-fms expression was found in the leukemic cells of 28 AML patients, regardless of their stage of differentiation, which was assessed in the French-American-British (FAB) classification. However, the level of c-fms expression was especially high in AML of the M5 stage. High levels of expression were not accompanied by either amplification or rearrangements of the c-fms gene in AML cell DNAs. In contrast, c-fms expression was not found in acute lymphoid leukemias, whether of T or B origin. Thus, c-fms expression appears as a specific molecular marker of leukemogenesis in the myeloid lineage.
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PMID:c-fms expression is a molecular marker of human acute myeloid leukemias. 297 Aug 73

Acute myeloid leukemia is caused by one or several transforming events which usually result in a block of myeloid precursor cell maturation. Human cell lines can serve as model for hematopoietic cells arrested at different stages of myeloid differentiation. These homogeneous populations help to dissect the cellular and molecular events involved in leukemogenesis, such as proto-oncogene activation. Furthermore, the efficacy and mechanism of action of compounds inducing differentiation of leukemic cells can be studied. Finally, these lines can permit the analysis of proliferation and differentiation of normal myeloid precursor cells.
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PMID:Myeloid cell lines: tools for studying differentiation of normal and abnormal hematopoietic cells. 304 57

In acute lymphoblastic leukemia (ALL) diagnostic samples and cell lines with unequivocal B cell precursor (common) or T cell precursor immunophenotypes, there is inappropriate or cross-lineage IgH or T cell receptor beta gene (TCR beta) rearrangement in approximately 25% of the cases. The frequency of such rearrangements is lower in mature lymphoid neoplasms and acute myeloblastic leukemia. The most immature B lineage ALL ('null' ALL) has a much lower frequency of TCR gene rearrangement than the common variant of B cell precursor ALL and also has a high frequency of oligoclonal rearrangements of IgH genes. Non-T leukemic cells with inappropriately rearranged TCR beta gene did not necessarily have a rearranged TCR gamma gene. Inappropriately rearranged IgH or TCR genes are usually not expressed at the mRNA level, and the gene for the TCR associated protein T3 delta is not detectably expressed at the mRNA or protein level in leukemias classified unambiguously as non-T. Five cases of acute leukemia with ambiguous or mixed lineage immunophenotypes (myeloid + T or myeloid + B) are described. These five had diverse patterns of IgH, TCR beta, and TCR gamma rearrangement, and all expressed terminal transferase concomitantly with MY9 (CD33). The T3 delta gene was expressed in two cases, which also expressed other T cell markers indicating that coordinated lymphoid lineage programs had been initiated. The implications of these observations for lineage-associated regulation of genes during normal differentiation and leukemogenesis are discussed.
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PMID:Lineage specificity of rearrangement and expression of genes encoding the T cell receptor-T3 complex and immunoglobulin heavy chain in leukemia. 311 13

The Philadelphia (Ph) translocation t(9;22)(q34;q11) occurs frequently in chronic myeloid leukemia (CML) but is less common in acute lymphoblastic leukemia (ALL) and rare in acute myeloid leukemia (AML). In most cases of CML and some cases of Ph+ ALL the protooncogene ABL from 9q34 is translocated to the breakpoint cluster region (bcr) of the BCR gene at 22q11 to form a chimeric gene encoding a novel 210-kd protein (P210 BCR-ABL) with enhanced tyrosine kinase activity. In other patients with Ph+ ALL and Ph+ AML, the breakpoint probably occurs in the first intron of the BCR gene; this results in a smaller chimeric gene which encodes a P190 BCR-ABL. We studied a patient with AML (FAB M6) arising de novo who had a "masked" Ph chromosome in association with extensive karyotypic changes. The leukemic cells initially showed rearrangement of the bcr, presence of a hybrid mRNA, and expression of the P210 BCR-ABL. These changes were absent in remission. These results support the concept that the BCR-ABL chimeric gene plays a crucial role in leukemogenesis but suggest that factors other than the position of the breakpoint in the BCR gene determine the lineage of the target cell for malignant transformation.
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PMID:Rearrangement of the breakpoint cluster region and expression of P210 BCR-ABL in a "masked" Philadelphia chromosome-positive acute myeloid leukemia. 317 49

DNA of peripheral blood or bone marrow leukocytes from 8 normal subjects, 7 cases of acute lymphocytic leukemia (ALL), 2 of acute myelogenous leukemia (AML) and 1 of chronic myelogenous leukemia (CML), having been digested by endonuclease Eco RI or Pst I separately, was hybridized with the probes of 3' fragment (Pst I/Hind III) or 5' fragment (Hinc II/Pst I) of Abelson murine leukemia virus (A-MuLV) oncogene v-abl. The proto-oncogene c-abl, which is homologous to v-abl, was found amplified in 4 ALL, 1 CML and 1 AML. In one of these 4 ALL, c-abl was amplified even over 100 times. A new c-abl BamH I fragment with 6.7 kilobase pairs (kb) in length was observed in 2 ALL and 1 CML out of these 6 cases with amplification, but none of this fragment was found in the normal subjects or other leukemia patients. These 3 patients with the presence of 6.7 kb fragment were high risk ones and 2 of them had died, suggesting that 6.7 kb fragment be the index of poor prognosis. The amplification and rearrangement of c-abl imply the activation of proto-oncogene in leukemogenesis.
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PMID:[Amplification and rearrangement of proto-oncogene c-abl in human leukemia cells]. 321 75

Activation of the cellular oncogene c-N-ras has been frequently observed in DNA from leukemic cells in acute myeloid leukemia (AML). Ras gene activation sufficient to mediate in vitro transformation and rodent tumorigenesis usually results from point mutations and amino acid substitutions in the 12th or 61st codons. In AML and the related myelodysplastic syndromes, amino acid substitution at the 13th codon has been observed. An activated c-N-ras gene from a 45-year-old patient with AML was isolated by transfection analysis and subjected to molecular cloning and sequence analysis. A point mutation of the 12th codon (GGT to GAT) resulting in aspartic acid substitution for glycine was observed. In other neoplasms such as colon cancer, specific ras mutations occur predominantly (e.g., K-ras, codon 12). This predominance has been of demonstrable value in analyzing large cohorts for ras activation with techniques that are rapid and economical, such as oligonucleotide hybridization. It had previously been thought that such a predominance for activation of c-N-ras at codon 13 existed in AML; however, this study in concert with others underscores the importance of 12th codon c-N-ras mutations, along with 13th and 61st codon mutations in the molecular pathogenesis of AML. Guanylate to adenylate transition mutations are commonly observed in AML and may provide insight into potential environmental leukemogens. Addressing all commonly prevalent ras activating mutations bears impact in the future design of molecular surveys of the role of ras activation in leukemogenesis.
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PMID:12th codon mutation resulting in c-N-ras activation in acute myelogenous leukemia. 327 72

Nine cases of overt acute nonlymphocytic leukemia and four cases of preleukemia or a myelodysplastic syndrome, all related to intensive treatment with alkylating agents, were studied cytogenetically and investigated using a rapid and sensitive dot blot screening procedure for point mutations in the Ha-ras, Ki-ras, and N-ras protooncogenes within codons 12, 13, and 61. The technique involves a selective amplification of genomic DNA sequences containing the codon sequence of interest, in combination with oligonucleotide hybridization. Examining fractionated mononuclear cells from bone marrow or peripheral blood, an N-ras mutation at position 13 was observed in one patient with overt leukemia, resulting in a base change from GGT to TGT thus converting glycine to cysteine. The other cases exhibited no ras gene mutations. It is surprising that c-ras mutations are only occasionally observed in overt acute nonlymphocytic leukemia related to treatment with alkylating agents, as such abnormalities have often been observed in acute nonlymphocytic leukemia de novo, and as many alkylating agents are known to produce DNA adducts leading to point mutations and substitution of single amino acids. The fact that deletions of varying parts of the long arms of chromosomes 5 and 7 are observed in most cases of therapy-related acute nonlymphocytic leukemia and preleukemia, as confirmed by our own series of 71 patients, suggests that loss of heterozygosity for specific alleles on the two chromosomes, rather than activation of a protooncogene, could be an important step in leukemogenesis.
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PMID:Point mutation of the ras protooncogenes and chromosome aberrations in acute nonlymphocytic leukemia and preleukemia related to therapy with alkylating agents. 328 Jan 21

Somatic mutation of the N-ras oncogene occurs frequently in de novo acute myeloid leukemia (AML). By virtue of their relation to AML, myelodysplastic syndromes (MDS) provide an in vivo model of human leukemogenesis. By using a strategy for analysis of gene mutation based on in vitro amplification of target sequences by the polymerase chain reaction (PCR) and selective oligonucleotide hybridization we analyzed the mutational status of codons 12, 13, and 61 of Ha-ras, K-ras, and N-ras in peripheral blood (PB) and/or bone marrow (BM) in 34 cases of primary MDS. Mutations at codon 12 of Ki-ras or N-ras were detected in three cases (9%): one of six cases of refractory anemia with excess blasts (RAEB) and two of nine cases of chronic myelomonocytic leukemia (CMML). The nucleotide substitution differed in each. In all cases the mutant allele was detectable in PB cells. A sustained hematologic remission was achieved after low-dose cytarabine therapy in the case of RAEB. Neither case of CMML exhibited signs of disease progression during follow-up at 7 and 12 months. In contrast, four of 31 patients without the ras mutation underwent transformation to AML within 12 months of genetic analysis. We conclude that ras mutations in MDS are heterogeneous and may develop at an early stage during the evolution of MDS. Their detection in PB cells illustrates the potential utility of ras mutation as a clonal marker in myeloid malignancy.
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PMID:Mutation of Ki-ras and N-ras oncogenes in myelodysplastic syndromes. 328 9

The identical cytogenetic marker, t(9;22)(q34;q11) (Philadelphia [Ph] translocation), is found in approximately 90%, 20%, and 2% of adult patients with chronic myelogenous leukemia (CML), acute lymphoblastic leukemia (ALL), and acute myelogenous leukemia (AML), respectively. In CML, the molecular events resulting from the Ph translocation include a break within the bcr locus on chromosome 22, transfer of the c-abl protooncogene from chromosome 9 to 22, and formation of an aberrant 210-kD bcr-abl fusion protein (p210bcr-abl). Recently, the absence of bcr rearrangement and expression of a distinct aberrant 190-kd abl protein (p190c-abl) has been described in Ph-positive ALL, with the suggestion that the two abl variants may be pathogenetically associated with myeloid v lymphoid leukemogenesis. Here we report that the genomic configuration and translation product of Ph-positive AML can be similar to that of Ph-positive ALL: the break at 22q11 may occur outside the 5.8 kb bcr region and result in expression of a 190-kD abl protein lacking these bcr sequences. Phosphokinase enzymatic activity, a fundamental property of p210bcr-abl, was also associated with AML-derived p190c-abl. Our current observations indicate that p190c-abl can be found in cells of lymphoid or myeloid lineage and is therefore unlikely to play a specific role in the development of lymphoid leukemias. Formation of p190c-abl instead of p210bcr-abl appears to be a characteristic of the acute rather than the chronic Ph-positive leukemic state.
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PMID:Expression of c-abl in Philadelphia-positive acute myelogenous leukemia. 331 Dec 7

Because of the uncertainty in dosimetry at the Japanese cities, I have recalculated the probability of x-ray or gamma-ray leukemogenesis using the revised doses given by the Livermore group. The theory is of the two hit type. The first hit damages DNA repair capability of base damage. The second hit causes derepression of a two repressor system. Inactivation of the first repressor permits synthesis of the second which will repress the expression of the leukocyte maturation gene. In comparing the observed data, I convert data expressed as mortality per year to leukemia incidence. I also supply evidence of the lack of the importance of chromosomal aberration and consider CML, AML, and ALL data lumped together. Agreement between theory and observation is good.
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PMID:X-ray or gamma-ray leukemogenesis at Hiroshima and Nagasaki. 340 21


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