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)

Herbimycin A, a benzoquinonoid ansamycin antibiotic, is found to reduce intracellular phosphorylation by tyrosine protein kinase. The human chronic myelogenous leukemia cell line K562 expresses a structurally altered c-abl protein with tyrosine kinase activity. When K562 cells are induced to undergo erythroid differentiation by hemin, reduction in the intracellular level of tyrosine phosphorylation occurs. In order to understand the relationship between induction of differentiation and reduction of tyrosine phosphorylation by the c-abl gene product, the effect that herbimycin A, a selective inhibitor of intracellular tyrosine kinase activity, exerts on the differentiation of K562 cells was examined. Reduction of tyrosine phosphorylation in K562 cells by herbimycin A was observed within 1 h. Noncytotoxic concentrations of herbimycin A induced erythroid differentiation of K562 cells but not of murine erythroleukemia 745A cells. The other human myeloid leukemia cell lines (HL-60, THP-1, and U937) tested were not induced to undergo cell differentiation by this antibiotic. Herbimycin A and the other well-known inducers such as hemin, butyric acid, Adriamycin, and 1-beta-D-arabinofuranosylcytosine had additive or more than additive effects on induction of erythroid differentiation of K562 cells. With respect to inhibition of cell growth, the sensitivity of K562 cells to herbimycin A was highest in the human leukemia cell lines we tested. Noncytotoxic concentrations of herbimycin enhanced the antiproliferative effect of Adriamycin or 1-beta-D-arabinofuranosylcytosine on K562 cells. Combination therapy with herbimycin A and its derivatives may be considered for use in the treatment of some types of leukemia where tyrosine kinase activities are implicated as determinants of the oncogenic state.
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PMID:Induction of erythroid differentiation of K562 human leukemic cells by herbimycin A, an inhibitor of tyrosine kinase activity. 291 Apr 52

Three antisera against the mouse v-abl gene product were used to identify two potential human c-abl gene products in the chronic myelogenous leukemia cell line K562. Two antipeptide sera were generated in rabbits using the predicted amino acid sequence of the mouse v-abl gene product. One antiserum was made against a polypeptide overlapping the in vivo tyrosine phosphorylation site of murine P120gag-abl and what is believed to be a homologous tyrosine phosphorylation site of the predicted normal human c-abl gene product (v-abl 263-280). The second antipeptide serum, abl 389-403, was generated against a predicted hydrophilic peptide of the v-abl gene product. Immunoprecipitation from K562 cells metabolically labeled with [32P]orthophosphate by a mouse tumor regressor and abl 389-403 antipeptide sera detected two proteins of 190,000 and 240,000 Da. Both proteins were labeled primarily at serine and, to a much lesser extent, at tyrosine residues. Immune complex kinase assays using conditions that allow the tyrosine phosphorylation of P120gag-abl showed that in vitro phosphorylation of P190 and P240 occurs primarily at tyrosine residues. The detection of these enzymatically active human c-abl gene products is a rare observation which may be in part attributed to the c-abl gene translocation from chromosomes 9 to 22 occurring in the vast majority of chronic myelogenous leukemia patients.
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PMID:The human cellular abl gene product in the chronic myelogenous leukemia cell line K562 has an associated tyrosine protein kinase activity. 298 32

The hallmark of human chronic myeloid leukaemia is a 9;22 chromosome translocation that fuses most of the c-abl oncogene to the 5' portion of the breakpoint cluster region (bcr) gene, such that a hybrid bcr-abl mRNA and polypeptide are generated. To clarify further the nature of this translocation, we have analysed the structure of normal human bcr mRNA by isolating large cDNA clones that collectively span the entire coding region and extend 2.6 kb upstream of those previously described. The 3150-bp nucleotide sequence reported here includes 534 bp of a GC-rich 5' non-coding segment and indicates, in conjunction with published sequences, that the bcr polypeptide comprises 1271 amino acid residues. The predicted polypeptide is unrelated to serine or tyrosine kinases, or indeed to any previously published sequence; its structure provides no evidence of a transmembrane region. Since probes from throughout the 4.8-kb cloned region hybridized to both the 4.5 and 6.7 kb normal bcr transcripts, both RNAs contain most or all of that region.
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PMID:cDNA sequence for human bcr, the gene that translocates to the abl oncogene in chronic myeloid leukaemia. 310 80

Kinases which phosphorylate proteins on tyrosine residues are of importance in the control of both normal and malignant cell proliferation. The receptors for a number of growth factors have intracellular domains with tyrosine protein kinase activity and several viral oncogenes code for tyrosine protein kinases. An abnormal tyrosine protein kinase has been implicated in the pathogenesis of chronic granulocytic leukemia. Using an immunoblot method and an antiphosphotyrosine antibody, we have detected substrates of tyrosine protein kinases in fresh human leukemia cells and normal blood and bone marrow cells. These substrates were present in all types of cells examined. Cells from patients with acute lymphoblastic leukemia, acute myeloid leukemia, and chronic lymphocytic leukemia contain prominent phosphotyrosine-containing protein bands with molecular weights in excess of 95 kDa. By contrast, chronic granulocytic leukemia cells, as well as normal bone marrow cells, lymphocytes, and monocytes, contain predominantly low molecular weight (less than 95 kDa) tyrosine kinase substrates. When lymphocytes were stimulated to enter cell cycle, however, high molecular weight substrates of similar molecular weights to those detected in acute lymphoblastic leukemia, acute myeloid leukemia, and chronic lymphocytic leukemia became prominent. The implications of these findings in the control of normal and malignant cell proliferation and differentiation are discussed.
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PMID:Detection of tyrosine protein kinase substrates in fresh leukemia cells and normal blood cells using an immunoblotting technique. 331 58

It is clear that there are at least two classes of cancer-related genes. The more characterized of these are the oncogenes, whose activation appears to play a major role in human neoplasia. There are now two families of oncogenes, the myc and ras families, whose cooperation seems capable of transforming normal cells in culture to tumorigenic cells. As such, they appear to form complementation groups with immortalizing and transforming properties, respectively. Moreover, the oncogenes can be subclassified as tyrosine kinases or kinase related, GTP binding proteins, growth factors or growth factor receptors or nuclear proteins. More than 20 viral oncogenes have been identified, for which more than 30 proto-oncogenes or pseudogenes exist in the human genome. Many of these have been cloned, characterized to some extent, and mapped to particular chromosomes or regions of chromosomes. Further, more than 20 additional putative oncogenes or transforming genes have been identified by tumor DNA transfection studies or at sites of integration or translocation for which no viral transforming gene cognates exist. Oncogenes can be activated by increased or unregulated expression, increased copy number (duplication, amplification), or somatic mutation resulting in a protein with increased oncogenic potential. Examples of all of these mechanisms can be found in several specific human cancers or leukemias. The cytogenetic correlate of enhanced expression is a translocation between two chromosomes at specific breakpoints with no net loss of genetic material (e.g., increased c-myc expression resulting from the 8;14 translocation in Burkitt's lymphoma). The phenomenon of increased gene copy number can sometimes be visualized as trisomy or tetrasomy for a particular chromosome but more dramatically as the development of extrachromosomal DMs or as chromosomally integrated HSRs (e.g., the N-myc gene amplification seen in neuroblastoma). Finally, certain somatic mutations can be associated with translocations (e.g., the bcr/abl fusion product created as a result of the 9;22 translocation in chronic myelogenous leukemia), but they are more commonly submicroscopic (as characterized by point mutations in the ras gene family). Evidence is accumulating for a second class of cancer-related genes whose absence or inactivation is associated with tumorigenesis. These genes are associated at the cytogenetic level with chromosomal deletions, in which the breakpoints may be variable, but specific, common regions are consistently deleted.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The involvement of oncogenes and suppressor genes in human neoplasia. 331 93

In the Philadelphia chromosome (Ph1) of chronic myelogenous leukemia (CML), the c-abl gene on chromosome 9 is translocated to bcr on chromosome 22. This results in the expression of a chimeric bcr-abl message that encodes the P210bcr-abl tyrosine kinase. The cells of 10% of acute lymphocytic leukemia patients (ALL) carry a cytogenetically similar Ph1 translocation. We report that Ph1-positive ALL cells express unique abl-derived tyrosine kinases of 185 and 180 kilodaltons that are distinct from the bcr-abl-derived P210 protein of CML. The appearance of the 185/180-kilodalton proteins correlates with the expression of a novel 6.5-kilobase messenger RNA. Thus, similar genetic translocations in two different leukemias result in the expression of distinct c-abl-derived products.
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PMID:Unique forms of the abl tyrosine kinase distinguish Ph1-positive CML from Ph1-positive ALL. 354 Dec 3

The v-abl transforming protein P160v-abl and the P210c-abl gene product of the translocated c-abl gene in Philadelphia chromosome-positive chronic myelogenous leukemia cells have tyrosine-specific protein kinase activity. Under similar assay conditions the normal c-abl gene products, murine P150c-abl and human P145c-abl, lacked detectable kinase activity. Reaction conditions were modified to identify conditions which would permit the detection of c-abl tyrosine kinase activity. It was found that the Formalin-fixed Staphylococcus aureus formerly used for immunoprecipitation inhibits in vitro abl kinase activity. In addition, the sodium dodecyl sulfate and deoxycholate detergents formerly used in the cell lysis buffer were found to decrease recovered abl kinase activity. The discovery of assay conditions for c-abl kinase activity now makes it possible to compare P150c-abl and P145c-abl kinase activity with the altered abl proteins P160v-abl and P210c-abl. Although all of the abl proteins have in vitro tyrosine kinase activity, they differ in the way they utilize themselves as substrates in vitro. Comparison of in vitro and in vivo tyrosine phosphorylation sites of the abl proteins suggests that they function differently in vivo. The development of c-abl kinase assay conditions should be useful in elucidating c-abl function.
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PMID:Detection of c-abl tyrosine kinase activity in vitro permits direct comparison of normal and altered abl gene products. 387 12

Application of recombinant DNA techniques led to the characterization of a heterogenous group of evolutionary conserved genes with potential transforming activity, called oncogenes. Regularly they seem to be involved in normal cell proliferation and differentiation. Various mechanisms including an increased dosage of gene product as well as subtile point mutations activate these sequences to oncogenes sensu strictu. Molecular analysis of the Philadelphia translocation in leukemic cells of CML-patients revealed a consistent translocation of the human c-abl-oncogene from chromosome 9 to the Ph1-chromosome, regardless of the cytogenetic subtype. Moreover we could demonstrate individual breakpoints for every patient investigated so far. However, these breakpoints are clustered on chromosome 22 within sequences of the bcr-gene. In leukemic cells containing the rearranged-c-abl/bcr sequences a new transcript is detected which is possibly the mRNA for an altered c-abl-protein that unmasks associated tyrosine specific kinase activity. These gene rearrangements were not detected in Ph1-negative CML-patients. Another human oncogene, c-sis, is located on chromosome 22, but seems not to play a crucial role in the generation of CML. These results are discussed in the context of recent advances in oncogene-research.
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PMID:[Philadelphia translocation and the human c-abl oncogene--relations in the light of molecular genetics]. 401 Feb 19

The v-abl protein of Abelson murine leukemia virus is a tyrosine-specific kinase. Its normal cellular homolog, murine c-abl, does not possess detectable tyrosine kinase activity in vitro. Previously, we have detected tyrosine kinase activity in vitro for an altered c-abl gene product (c-abl P210) in the K562 human chronic myelogenous leukemia cell line. The expression of this variant c-abl gene product correlates with chromosomal translocation and amplification of the c-abl gene in K562 cells. Like v-abl, c-abl P210 is a fusion protein containing non-abl sequences near the amino terminus of c-abl. We compared the in vitro tyrosine kinase activity of c-abl P210 with that of wild-type murine v-abl. The remarkable similarities of these two proteins with respect to cis-acting autophosphorylation, trans-acting phosphorylation of exogenous substrates, and kinase inhibition, using site-directed abl-specific antisera, suggested that c-abl P210 could function similarly to v-abl in vivo. In addition, c-abl P210 possessed an associated serine kinase activity in immunoprecipitates. The serine kinase activity was not inhibited by site-directed, abl-specific antisera that inhibit the tyrosine kinase activity, suggesting that the serine kinase activity is not an intrinsic property of c-abl P210. Thus, the activation of the c-abl gene in a human leukemia cell line may have functional consequences analogous to activation of the c-abl gene in Abelson murine leukemia virus.
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PMID:Activation of the c-abl oncogene by viral transduction or chromosomal translocation generates altered c-abl proteins with similar in vitro kinase properties. 403 28

We have quantitated tyrosine protein kinase (TPK) activity in particulate and cytosolic fractions from human leukemic cells. Slowly proliferating cells from patients with chronic lymphocytic leukemia (CLL) had levels of TPK similar to those of quiescent normal lymphocytes. Cells from patients with acute lymphoblastic leukemia (ALL), acute myeloid leukemia (AML) and chronic granulocytic leukemia (CGL) contained markedly lower levels of TPK activity, similar to the levels in phytohaemagglutinin-stimulated (proliferating) normal lymphocytes and in bone marrow cells. This suggested that TPK is part of a mechanism for transducing growth signals and is down-regulated following signal transmission. We also identified endogenous substrates for TPK in leukemic cells. Particulate fractions from ALL, CLL and AML cells contained substrates identical to those previously detected in normal lymphocytes. In particular, a 38kD substrate thought to be involved in early stages of growth signal transduction in normal lymphocytes was found in all samples of these groups examined. Cytosolic fractions from these groups of leukemia cells contained higher molecular weight substrates not found in resting or proliferating normal lymphocytes or bone marrow cells. In contrast, TPK substrates in both particulate and cytosolic fractions from CGL cells resembled those of normal bone marrow cells in that only proteins with molecular weight below 40kD were labelled on tyrosine. We conclude that leukemic cells do not contain higher levels of TPK than do normal hemopoietic cells. Qualitative differences in TPK species or in their substrates may result in aberrant regulation of proliferation in leukemic cells. However, we cannot exclude the possibility that additional TPK substrates detected in leukemic cells were a feature of the normal equivalent hematopoietic cells from which the leukemia cells were derived.
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PMID:Tyrosine protein kinases and their substrates in human leukemia cells. 407 54


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