UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A transformation-defective mutant of Abelson murine leukemia virus (A-MuLV), called A-MuLV-P92td, has been isolated. The mutant encodes a serologically identifiable A-MuLV protein of molecular weight 92,000 (P92) but it lacks the ability to transform either fibroblasts or bone marrow lymphoid cells. In contrast to the protein made by transforming strains of A-MuLV, the protein made by A-MuLV-P92td does not becme phosphorylated during in vitro incubation with [gamma-32P]ATP. If the protein is mixed with proteins from cells transformed by a functional A-MuLV strain, phosphorylation of P92 occurs, showing that its ability to accept phosphate is not altered by the mutation. These parallel changes provide genetic evidence that the A-MuLV protein is a transforming protein and that its associated protein kinase activity (EC 2.7.1.37) is a crucial part of its transforming ability.
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PMID:A transformation-defective mutant of Abelson murine leukemia virus lacks protein kinase activity. 625 50

The only known product of the Snyder-Theilen strain of feline sarcoma virus (ST-FeSV) is a 85,000-dalton protein, designated ST P85, that contains feline leukemia virus gag gene encoded proteins (p15, p12, and a fragment of p30) and a sarcoma virus-specific polypeptide. Antibodies directed against the latter immunoprecipitated a 92,000-dalton phosphoprotein (NCP 92) expressed at low levels in normal feline embryo fibroblasts as well as in feline cells of epithelial or lymphoid origin. Normal cellular proteins crossreactive with ST P85 were also detected in cell lines from various other mammalian species. These results suggest that the ST-FeSV sequences encoding for the sarcoma virus-specific domain of ST P85 originated from an evolutionarily conserved cellular gene expressed in cells of independent differentiation lineage. Immunoprecipitates containing ST-FeSV P85 exhibited a protein kinase activity that specifically phosphorylated tyrosine residues. The physiological significance of this finding is illustrated by the finding that phosphotyrosine is an intrinsic component of ST P85. Furthermore, 5- to-fold higher levels of this unusual phosphorylated amino acid were present in ST-FeSV transformants than in uninfected control cells. Phosphorylation of tyrosine residues appears to be associated with cellular transformation caused by Rous sarcoma virus and Abelson murine leukemia virus. Thus, independent transforming virus isolates from birds, mice, and cats may utilize common pathways in exerting their oncogenic potential.
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PMID:Origin and functional properties of the major gene product of the Snyder-Theilen strain of feline sarcoma virus. 625 60

A previously described 120,000 dalton polyprotein, P120, encoded by the Abelson strain of murine leukemia virus (AbLV) is compared to translational products representing the entire Moloney murine leukemia virus (MuLV) genome. Each of three [35S]-methionine tryptic present in Moloney-MuLV Pr65gag are also represented in Pr180gag-pol. Of these, one peptide corresponding to Moloney-MuLV p12, but neither of two p30 specific peptides are present in AbLV P120. None of the twelve remaining methionine containing peptides present in AbLV P120 appear to correspond to those of either Moloney-MuLV Pr82env. AbLV P120 and a 110,000 dalton polyprotein encoded by a second transforming isolate of mouse origin, designated AK-T8, are both shown to be highly phosphorylated. Sites of phosphorylation included known phosphorylated structural (p12) components, as well as components encoded by acquired cellular sequences. Immunoprecipitates of AbLV P120 obtained from either cells or pseudotype virions are shown to contain protein kinase activity which recognizes AbLv P120 as substrate. This activity may represent an intrinsic property of the polyprotein itself or represent a cellular enzyme associated with AbLV P120 in the form of an enzyme-substrate complex.
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PMID:Abelson murine leukemia virus: characterization of a polyprotein containing phosphorylated component(s) encoded by newly acquired sequences. 625 63

Mink cells nonproductively-infected with the weakly-transforming T-8 isolate of murine leukemia virus (MuLV) express a 110,000 mol wt polyprotein designated T-8 P110. By immunoprecipitation analysis, T-8 P110 is shown to contain AKR-MuLV amino terminal gag gene-specific components (p15, p12) but to lack p30, p10, gp70, and p15(E) antigenic determinants. These observations are further substantiated by tryptic peptide analysis indicating T-8 P110 to share approximately six lysine-containing tryptic peptides with AKR-MuLV Pr65gag, and none with AKr-MuLV Pr82env. Furthermore, of seven methionine-containing T-8 P110 tryptic peptides, at least four can be conclusively shown not to be present in either AKr-MuLV Pr180gag/pol or Pr82env. A clonal mink cell line nonproductively infected by T-8, and expressing high levels of P110, although not morphologically transformed, is shown to lack elevated levels of tyrosine-specific protein kinase activity and reduction of epidermal growth factor binding sites characteristic of cells transformed by many other RNA-transforming viruses. These findings argue either that the T-8 viral genome contains acquired cellular sequences encoding a portion of P110, or that T-8 P110 represents an inphase deletion of AKR-MuLV Pr180gag/pol with extensive posttranlational modification and that an as yet unidentified protein is responsible for T-8 associated transformation.
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PMID:Identification of tryptic peptides unique to a 110,000-molecular weight polyprotein encoded by the T-8 isolate of murine leukemia virus. 625 65

Abelson murine leukemia virus transforms both lymphoid cells and fibroblasts in vitro and induces a unique type of thymus-dependent lymphoma in vivo. Four fibroblast-transforming strains of Abelson murine leukemia virus were identified, based on the sizes of the Abelson murine leukemia virus-specific phosphoproteins produced by these isolates. Two of these strains, the standard P120- and the P160-producing viruses, transformed lymphoid cells efficiently in vitro and induced Abelson disease in vivo. Two other strains, which synthesized small Abelson murine leukemia virus-specific proteins with molecular weights of 90,000 (P90) and 100,000 (P100), transformed lymphoid cells very poorly both in vitro and in vivo. The reduced oncogenic potentials of these isolates were correlated with a high level of synthesis of fairly unstable P90 and P100. In addition, neither P90 nor P100 functional efficiently in protein kinase assays. The correlation of abnormal metabolism and deficient protein kinase activity with the reduced oncogenic potentials of these virus strains supported a direct role for these proteins and the kinase activity in transformation. Furthermore, these results suggested that the requirements for lymphoid cell transformation and fibroblast transformation are different.
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PMID:Abelson murine leukemia virus mutants deficient in kinase activity and lymphoid cell transformation. 625 26

The genome of the Snyder-Theilen strain of feline sarcoma virus (ST-FeSV) is a 4.3-kilobase-pair (kbp) RNA molecule that contains a 1.5-kbp cellular insertion (fes gene) flanked by feline leukemia virus sequences at its 5' end (1.6 kbp) and 3' end (1.2 kbp) (Sherr et al., J. Virol. 34:200-212, 1980). DNA transfection techniques have been utilized to determine the regions of the ST-FeSV genome involved in malignant transformation. I have found that the 3.7-kbp 5'-end fragment of the ST-FeSV provirus (which corresponds to the 3.4-kbp 5'-end fragment of the viral genome) is sufficient to transform NIH/3T3 fibroblasts. Enzymes that cleave the ST-FeSV provirus DNA within the feline leukemia virus gag gene sequences or within the fes gene abolished the transforming activity. Preservation of the proviral large terminal repeats was also required for transformation. Transformed NIH/3T3 cells obtained by transfection of total or subgenomic ST-FeSV DNA expressed normal levels of the ST-FeSV gene product ST P85 and of its associated protein kinase activity. Furthermore, these cells contained high levels of phosphotyrosine residues, a biochemical marker associated with cellular transformation induced by certain retroviruses including ST-FeSV. These results, taken together, strongly support the concept that only those ST-FeSV proviral sequences necessary for ST P85 expression are involved in malignant transformation.
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PMID:Cellular transformation by subgenomic feline sarcoma virus DNA. 626 Oct

Both lymphocytes and fibroblasts that have been transformed by ABelson murine leukemia virus contain 6- to 12-fold increased levels of the rare modified amino acid phosphotyrosine in their proteins. This observation, coupled with the fact that the p120 protein encoded by this virus has been shown to undergo an apparent autophosphorylation to yield phosphotyrosine in vitro, suggests that Abelson virus encodes a protein kinase that phosphorylates tyrosine in transformed cells. These results are similar to those obtained previously with Rous sarcoma virus and suggest, by analogy, that the modification of cellular polypeptides through the phosphorylation of tyrosine may be involved in cellular transformation by Abelson virus. p120 isolated from transformed cells contains phosphoserine, phosphothreonine, and phosphotyrosine. The phosphotyrosine is found at two sites in the protein. p120 therefore may be a protein kinase that undergoes autophosphorylation in vivo.
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PMID:Evidence that the Abelson virus protein functions in vivo as a protein kinase that phosphorylates tyrosine. 626 13

Determination of levels and isozymic patterns of protein kinase activities was performed upon extracts from two human leukemia cell lines (K562 and HL-60) and blast cells from five untreated patients with acute myeloblastic leukemia and compared to activities from normal human peripheral blood granulocytes and bone marrow samples enriched for proliferative myeloid cells. The leukemic cells studied were found to have higher specific activities of cytosol cyclic adenosine 3':5'-monophosphate (cAMP)-independent casein kinase and lower activation by cAMP of their cytosol histone kinase compared to the normal myeloid cells studied. Diethylaminoethyl-cellulose chromatography revealed correspondingly higher amounts of cAMP-independent protein kinase isoenzymes (two casein kinase and one histone kinase peaks) in the leukemic cells, as well as altered ratios of the two cAMP-dependent isozymes. Casein phosphorylating activities extracted from the nuclei of the leukemic cell lines were also high compared to normal myeloid cells. Further purification and estimation of molecular weights of the isoenzymes present in leukemia were accomplished by gel filtration, using Sephacryl S-200. Resolution of the acute myeloblastic leukemia cell line nuclear casein kinase activity into two peaks was also thereby accomplished. The nuclear peaks eluted earlier than the corresponding cytoplasmic peaks; thus, the nuclear isoenzymes may not be identical to those from the cytoplasm. The increased protein kinase activity noted in such cells may be an important biochemical concomitant of transformation.
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PMID:Cyclic adenosine 3':5'-monophosphate-dependent and -independent protein kinase in acute myeloblastic leukemia. 626 62

Transformation of chicken cells by Fujinami sarcoma virus (FSV), PRC II or Y73 (three independently isolated avian sarcoma viruses that are replication-defective and lack the Rous sarcoma virus src gene) resulted in significant elevation (4-13 fold) of phosphotyrosine levels in cellular protein. The gag-related proteins encoded by these avian sarcoma viruses (ASVs) were all associated with tyrosine-specific protein kinase activity when assayed in immune complexes and were phosphorylated at both tyrosine and serine residues in vivo. Both the phosphotyrosine level in protein of FSV-infected cells and the protein kinase activity assayed in immune complexes containing the FSV protein P140 were temperature-sensitive. The presumed transforming proteins of these ASVs were compared with those of Rous sarcoma virus (RSV), Abelson murine leukemia virus and the Snyder-Theilen and Gardner-Arnstein strains of feline sarcoma virus (FeSV), which have previously been associated with tyrosine-specific protein kinase activity. FSV and PRC II proteins were shown to be structurally related to one another and to the FeSV proteins by tryptic peptide mapping and by immunological studies. No homology was observed, however, between the transforming proteins of RSV, Y73, Abelson murine leukemia virus and the FSV/PRC II/FeSV class, suggesting there may be at least four classes of retroviruses whose transformation mechanisms involve aberrant phosphorylation of cellular protein at tyrosine residues.
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PMID:Transforming proteins of some feline and avian sarcoma viruses are related structurally and functionally. 626 83

We have prepared full-length DNA clones of the Abelson murine leukemia virus (A-MuLV) genome. A specific probe homologous to the central portion of the A-MuLV genome was prepared by nick translation of a subcloned restriction fraction from the cloned DNA. The probe was used to examine the genome structure of several A-MuLV variants. The conclusions are: (i) three viruses coding for Abelson-specific proteins of molecular weight 120,000, 100,000, and 90,000 had genomes indistinguishable in size, suggesting that the shorter proteins are the result of early translational termination; (ii) compared with the genome encoding the 120,000-dalton (120K) protein, a genome coding for a 160K protein was 0.8 kilobase larger in the A-MuLV-specific region; and (iii) a genome coding for a 92K protein had a 700-base pair deletion internal to the coding region. This mutant was transformation defective: its 92K protein lacked the protein kinase activity normally associated with the A-MuLV protein, and cells containing the virus were not morphologically transformed. In addition, we determined the number of A-MuLV proviruses in each of several transformed fibroblast and lymphoid cells prepared by infection in vitro. These experiments show that a single copy of the A-MuLV provirus is sufficient to transform both types of cells and that nonproducer cells generally have only one integrated provirus.
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PMID:Genome structure of Abelson murine leukemia virus variants: proviruses in fibroblasts and lymphoid cells. 626 22

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