Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0598766 (leukemogenesis)
 4,065 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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.
Cancer Res 1988 Apr 01
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

There are two hypotheses for location of first transformation of cells of T-cell lineage into preneoplastic cells from studies of leukemogenesis in mice; one is the bone marrow and another is the thymus. N-Nitroso-N-propylurea [(NPU) CAS: 816-57-9] induces high incidence of thymic lymphoma in F344 rats. In the present experiments, the location of NPU-target cells was examined in F344 rats. In the first experiment, bone marrow cells from NPU-treated male rats were inoculated into sublethally irradiated female rats. However, neither thymic nor other types of leukemias were induced in these rats. In the following experiment, thymectomized male rats received grafts sc with normal thymuses of age-matched female F344 rats. Continuous administration of NPU to the rats successfully induced 9 thymic lymphomas in the grafted thymuses. In 8 thymic lymphomas analyzed, 6 consisted of donor cells and the other 2 consisted of recipient cells. The present results from these 2 experiments strongly suggested that NPU-induced rat thymic lymphomas originate from intrathymic cells but not from bone marrow cells. In other words, target cells of leukemogenic activity of the chemical carcinogen NPU probably exist in the thymus of F344 rats.
J Natl Cancer Inst 1987 Jul
PMID:Existence of N-nitroso-N-propylurea target cells in the thymus of F344 rats in thymic lymphomagenesis. 329 85

The highly conserved, single copy c-myb gene has been independently transduced by two avian acute leukemia viruses, AMV and E26. This gene has also undergone insertional mutagenesis by non-acutely transforming murine leukemia viruses in a number of hematopoietic tumors. The common denominator of these retroviral activations of c-myb appears to be truncation of the normal coding region at either or both ends. The role of point mutations in myb-induced leukemogenesis is currently unknown. The products of the c-myb gene and its altered viral counterparts are nuclear proteins, a large fraction of which are associated with the nuclear matrix. In addition, the myb gene products have short half-lives and bind DNA in vitro. These features suggest that myb may act by regulating DNA replication or transcription. Consistent with this notion, the expression of c-myb is cell cycle dependent in several cell types. However, the abundant expression of c-myb in the thymus is not similarly regulated and may serve a different function. The expression of c-myb appears not to be limited to hematopoietic tissues as previously thought and the nature of the hematopoietic specificity of transformation by v-myb is not currently understood. Nevertheless, hematopoietic growth factors and their receptors appear to play an important role in such transformation. Two new experimental systems for studying myb have recently been described. First, the discovery of a myb-related gene in Drosophila should allow the application of powerful classical and molecular genetic approaches. The functional similarity of this distantly related gene to the much more closely related avian and mammalian myb genes is unknown. Second, recent studies of murine myb in normal and abnormal hematopoiesis offers several advantages relative to the avian system, such as in-bred animal strains, a wealth of specific cell-surface markers, and cloned hematopoietic growth factor and receptor genes. Isolation or construction of an acutely transforming murine myb retrovirus may thus be very useful. Several obvious goals for future research will be to define the function of myb proteins within the nucleus, to understand the regulation of myb expression during the cell cycle, to establish which molecular alterations are essential for converting c-myb into a transforming gene, and the determine the role of myb in human malignancies.
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PMID:The myb oncogene. 333 62

Human leukocyte antigen-DP (HLA-DP) typing was performed on patients with chronic myelogenous leukemia (CML, n = 44), acute nonlymphoblastic leukemia (ANLL, n = 34), or acute lymphoblastic leukemia (ALL, n = 41). Frequencies of DPw alleles in CML and ANLL patients were not significantly different from 254 controls, except that in ANNL DPw1 was absent. This was most likely due to the concurrent absence of DR3 with which DPw1 is in linkage. In contrast, in ALL, frequencies of DPw2 and DPw5 were significantly increased (corrected P less than 0.05, relative risk (RR) = 2.19 and corrected P less than 0.01, RR = 6.92, respectively). This was not due to linkage with DR. The frequency of DPw1 also tended to be reduced, but this was not caused by a similar decrease of DR3 in ALL. These results, therefore, demonstrate both positive and negative associations between major histocompatibility complex (MHC) gene products which are in only very weak linkage with the rest of HLA, and acute lymphocytic, but neither acute nor chronic myelogenous, leukemias. The HLA-DP region could thus contain long sought-after genes influencing susceptibility and resistance to leukemogenesis.
Cancer 1988 Feb 01
PMID:Human leukocyte antigen-DP in leukemia. 342 71

Progression of more differentiated to less differentiated malignant phenotypes has been described infrequently during the natural evolution or at relapse of treated hematopoietic malignancies. This report describes an unusual instance of immunophenotypic transformation from an immunologically undifferentiated acute leukemia to a leukemia that at relapse possessed morphologic and immunologic markers characteristic of a Burkitt's-like acute lymphoblastic leukemia. A 26-year-old man initially presented with pancytopenia and a bone marrow diffusely replaced with blast cells morphologically most consistent with a French-American-British L2 subclassification. The surface immunophenotype of the blasts at diagnosis showed HLA-DR surface antigen but no myeloid, lymphoid, or immunoglobulin determinants. Despite successful induction and ongoing consolidation chemotherapy, the patient had a relapse five months after diagnosis; blast cells at relapse demonstrated marked cytoplasmic vacuolation consistent with a Burkitt's-like L3 acute lymphoblastic transformation. Immunophenotypic analysis revealed the presence of restricted immunoglobulin determinants (mu heavy chain and kappa light chain), as well as two separate B lineage surface determinants (BA-1 and B-1). Immunophenotypic transformations may reflect the presence of either a multiclonal or multipotent leukemic population; documentation of the frequency of such transformations and genomic analysis of the transformed subpopulations may be helpful in furthering the understanding of molecular mechanisms involved in leukemogenesis.
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PMID:Immunophenotypic transformation from acute undifferentiated leukemia to Burkitt's-like acute lymphoblastic leukemia. 346 12

The carcinogenicity and promoting effect of phenylbutazone were investigated in inbred DONRYU rats. In the carcinogenicity study, both sexes were administered the chemical at dietary levels of 0 (control), 0.125, or 0.25% for 2 years. Toxic lesions were associated with phenylbutazone treatment in the kidney and digestive tract, appearing to have an adverse effect on life expectancy. Various tumors were detected in all groups including the controls. With the exception of pheochromocytoma in the female high-dose group, no statistically significant increase in yield of any tumors, including leukemia, was apparent in the treated groups of either sex when the data were analyzed by Fisher's exact probability and/or chi-square tests. Application of an age-adjusted statistical analysis revealed a slight positive effect regarding the occurrence of pheochromocytomas, neoplastic liver nodules, and leukemias in females. However, these tumors are commonly observed to develop spontaneously in this rat strain, and no such effect was apparent in the male groups. In addition, no differences in incidences of relevant preneoplastic lesions were evident between control and treated groups. Thus phenylbutazone showed no carcinogenic activity in DONRYU rats when given continuously in the diet for 2 years. For the investigation of promoting effect, phenylbutazone was given as a dietary supplement for 2 years subsequent to initiation with N-ethyl-N-nitrosourea or N-propyl-N-nitrosourea. No enhancement of nitrosourea-induced leukemogenesis was apparent, although a slight promoting effect was demonstrated for renal and thyroid tumorigenesis.
J Natl Cancer Inst 1987 Sep
PMID:Long-term studies on carcinogenicity and promoting effect of phenylbutazone in DONRYU rats. 347 93

Natural killer (NK) cells have been implicated in defense against malignancies, especially leukemia. Because patients with leukemia and preleukemic disorders manifest low NK activity, it is possible that NK cell impairment may contribute to leukemogenesis. In view of this possibility, it was important to characterize the NK cell defect of leukemic patients and to design new approaches for its correction. Analysis of the mechanism of NK cell defect demonstrated that NK cells of leukemic patients were impaired in their tumor-binding and lytic activity and did not display ability to recycle or to produce cytotoxic factor. However, deficient NK activity could be corrected by culture of peripheral blood effector cells with IL 2. IL 2-activated NK cells manifested restoration of all measured parameters of the cytotoxic mechanism, as exemplified by normalized tumor-binding and lytic activity, as well as the rate of lysis and ability to recycle. Importantly, such in vitro stimulated cytotoxic cells displayed reactivity against fresh leukemic cells of autologous as well as allogeneic origin. Another interesting observation from these studies was that the NK activity was also induced in the leukemic bone marrow, a tissue with a very low frequency of cytotoxic NK cells. It is important to note that cultured NK cells did not represent a stationary cell population, but proliferated in vitro quite actively (doubling time 3 to 6 days) for at least 5 wk. Characterization of the in vitro generated cytotoxic cells indicated that these cells displayed large granular lymphocyte morphology and CD16 and Leu-19 cell surface phenotype. Our data demonstrate that the NK cell defect of leukemic patients is not a permanent phenomenon, but can be reversed in culture with IL 2, and that fully cytotoxic NK cells can be maintained and expanded in vitro. Thus, it is reasonable to suggest that adoptive transfer of autologous NK cells to the patients may represent a promising new therapy for treatment of leukemia.
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PMID:Induction of NK cell activity against fresh human leukemia in culture with interleukin 2. 349 84

To investigate leukemogenesis in atomic bomb (A-bomb) survivors, chromosome aberrations in bone marrow cells, and T- and B-lymphocytes from 135 healthy persons who had been exposed within 1,000 m of the hypocenter of the Hiroshima A-bomb were sequentially examined. Leukemic marrow cells from 468 patients with acute or chronic type of leukemias, including 25 acute leukemias exposed to 1 rad or more of radiation were also studied cytogenetically. Analysis of breakpoints observed in T-lymphocytes with stable types of abnormalities revealed a nonrandom distribution, and clustering in specific regions of chromosomes such as 22q1, 14q3, and 5q3. Statistical analysis revealed a higher incidence of translocations in 50 bands, including those containing cellular oncogenes such as 8q22, 8q24, and 9q34. Of these 50 bands, 20 were matched with bands specific for leukemia and cancer and 14 with constitutive fragile sites. In leukemic marrow, all 10 patients who had been exposed to radiation of more than 200 rad and then developed acute non-lymphocytic leukemia had chromosome aberrations. Their aberrations were more complex than those in patients exposed to less than 200 rad (33 patients) and in the non-exposed patients (134 patients). DNA samples extracted from bone marrow cells of 13 survivors, including 4 healthy survivors with more than 30% chromosome abnormalities in the bone marrow and 9 leukemia patients were used for in vivo selection assay of transforming genes. Tumor formation in nude mice was observed in 3 of the 4 healthy survivors and 9 leukemia patients. All of the transfectants were shown to contain Alu sequences. The transforming N-ras gene was detected for the first time in the bone marrow cells from 3 heavily exposed survivors and from 7 leukemia patients with a history of radiation exposure.
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PMID:Chromosome aberrations and transforming genes in leukemic and non-leukemic patients with a history of atomic bomb exposure. 350 30

Murine leukemia viruses (MuLVs) are retroviruses which induce a broad spectrum of hematopoietic malignancies. In contrast to the acutely transforming retroviruses, MuLVs do not contain transduced cellular genes, or oncogenes. Nonetheless, MuLVs can cause leukemias quickly (4 to 6 weeks) and efficiently (up to 100% incidence) in susceptible strains of mice. The molecular basis of MuLV-induced leukemia is not clear. However, the contribution of individual viral genes to leukemogenesis can be assayed by creating novel viruses in vitro using recombinant DNA techniques. These genetically engineered viruses are tested in vivo for their ability to cause leukemia. Leukemogenic MuLVs possess genetic sequences which are not found in nonleukemogenic viruses. These sequences control the histologic type, incidence, and latency of disease induced by individual MuL Vs.
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PMID:The pathophysiology of murine retrovirus-induced leukemias. 352 64


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