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)

The single protein encoded by Abelson murine leukemia virus is a fusion of sequence from the retroviral gag genes with the v-abl sequence. Deletion of most of the gag region from the transforming protein results in a virus capable of transforming fibroblasts but no longer capable of transforming lymphoid cells. Smaller deletions in gag reveal that p15 gag sequences are responsible for this effect, whereas deletion of p12 sequences had no effect on lymphoid transformation. In transformed fibroblasts, p15-deleted and normal proteins had similar activities and subcellular localization. When the p15-deleted genome was introduced into previously transformed lymphoid lines, its protein product exhibited a marked instability. The tyrosine-specific autophosphorylation activity per cell was less than 1/20th that of the nondeleted protein. Although pulse-Ia-beling showed that the p15-deleted protein was synthesized efficiently, immunoblotting demonstrated that its steady-state level was less than 1/10th that of the nondeleted Abelson protein. The specific instability of the p15-deleted protein in lymphoid cells explains the requirement of these sequences for lymphoid but not fibroblast transformation.
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PMID:Protein stabilization explains the gag requirement for transformation of lymphoid cells by Abelson murine leukemia virus. 298 9

The putative transforming protein of the type I human T-cell leukemia virus (HTLV-1) is a 40-kilodalton protein encoded by the X region and is termed p40XI. On the basis of both subcellular fractionation techniques and immunocytochemical analysis, it is now shown that p40XI is a nuclear protein with a relatively short half-life (120 minutes). It is synthesized de novo in considerable quantities in a human T-cell line infected with and transformed by the virus in vitro, and it is not packaged in detectable amounts in the extracellular virus.
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PMID:Studies of the putative transforming protein of the type I human T-cell leukemia virus. 299 27

The transforming protein of the Abelson murine leukaemia virus encodes a protein-tyrosine kinase. Previously, we have shown that in Abelson-transformed cells, the Abelson kinase regulates the phosphoserine content of ribosomal protein S6. Phorbol 12-myristate 13-acetate (TPA), which activates protein kinase C, induces the phosphorylation of S6 at the same five phosphopeptides as found in S6 isolated from Abelson-transformed cells. We have investigated three models whereby the Abelson kinase might regulate S6 phosphorylation via the activation of protein kinase C. First, the Abelson kinase could phosphorylate protein kinase C on tyrosine. However, we do not detect significant amounts of phosphotyrosine in protein kinase C in vivo. Second, it has been suggested that protein-tyrosine kinases might phosphorylate phosphatidylinositol. This could increase the intracellular levels of diacylglycerol and thereby activate protein kinase C. Our data strongly suggest that direct phosphorylation of phosphatidylinositol by the Abelson protein-tyrosine kinase has no physiological role. Third, an indirect activation of protein kinase C may occur via an increase in the rate of phosphoinositide breakdown. We have found that phosphoinositide breakdown appears to be constitutively activated in Abelson-transformed cells. The implications of these observations are discussed with regard to S6 phosphorylation and the mechanism of Abelson-induced transformation.
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PMID:Phosphatidylinositol turnover and transformation of cells by Abelson murine leukaemia virus. 300 37

Monoclonal antibodies specific for regions of the transforming protein of Abelson murine leukemia virus were prepared. Antibodies directed against the kinase domain inhibited the autophosphorylation of v-abl proteins, and all of the antibodies reacted with the products of the murine and human c-abl loci.
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PMID:Monoclonal antibodies specific for v-abl- and c-abl-encoded molecules. 300 19

The consistent cytogenetic translocation of chronic myelogenous leukemia (the Philadelphia chromosome, Ph1) has been observed in cells of multiple hematopoietic lineages. This translocation creates a chimeric gene composed of breakpoint-cluster-region (bcr) sequences from chromosome 22 fused to a portion of the abl oncogene on chromosome 9. The resulting gene product (P210c-abl) resembles the transforming protein of the Abelson murine leukemia virus in its structure and tyrosine kinase activity. P210c-abl is expressed in Ph1-positive cell lines of myeloid lineage and in clinical specimens with myeloid predominance. We show here that Epstein-Barr virus-transformed B-lymphocyte lines that retain Ph1 can express P210c-abl. The level of expression in these B-cell lines is generally lower and more variable than that observed for myeloid lines. Protein expression is not related to amplification of the abl gene but to variation in the level of bcr-abl mRNA produced from a single Ph1 template.
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PMID:Variable expression of the translocated c-abl oncogene in Philadelphia-chromosome-positive B-lymphoid cell lines from chronic myelogenous leukemia patients. 301 46

The organization of the transforming protein encoded by Abelson murine leukemia virus (A-MuLV) in transformed lymphoid and fibroblast cells was examined using immunofluorescent analysis. Antibodies specific for v-abl were capable of detecting cytoplasmic Abelson protein molecules in fixed cells, but none were able to stain the surface of live A-MuLV transformed cells. However, a series of monoclonal antibodies selected for the ability to bind to the surface of A-MuLV-transformed cells did stain live cells. These antibodies were shown to react with a determinant within the helper virus-derived p15 sequences that are present at the amino terminus of the Abelson protein, indicating that gag-derived determinants are exposed on the surface of transformed cells. The inability of a p12-specific monoclonal antibody to stain live cells indicates that only a small portion of the amino terminal sequences are exposed. Examination of the ability of these antibodies to react with Abelson protein encoded by a series of gag deletion mutants suggests that the determinant recognized by these antibodies lies between amino acids 38 and 114 of p15.
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PMID:Gag-derived but not abl-derived determinants are exposed on the surface of Abelson virus-transformed cells. 302 Jul 82

Antibodies were prepared against bacterially expressed polypeptides corresponding to various portions of the v-ets-encoded domain of P135gag-myb-ets, the transforming protein of avian leukemia virus E26. Immunoprecipitation analyses show that ca. 80 v-ets-encoded amino-acids located immediately after the v-myb/v-ets junction are not found in P54/56c-ets, the translation product of the c-ets proto-oncogene, nor in a set of cellular proteins of 64, 62, and 60 kDa related to but distinct from P54/56c-ets. In addition, Northern blot analyses show that these 5' v-ets sequences neither derive from the nontranslated region of the known cellular transcripts hybridizing to a v-ets probe nor from the c-myb transcript or the helper virus genetic information. Tryptic peptide analyses furthermore indicate that, except for these sequences and the last 16 carboxy terminal amino acids of P135gag-myb-ets, the amino acids encoded by v-ets are essentially colinear with those of P54c-ets.
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PMID:The 5' extremity of the v-ets oncogene of avian leukemia virus E26 encodes amino acid sequences not derived from the major c-ets-encoded cellular proteins. 302 65

Hardy-Zuckerman 2 feline sarcoma virus (HZ2-FeSV), isolated from a multicentric feline fibrosarcoma is a replication-defective acute transforming feline retrovirus which originated by transduction of feline c-abl sequences with feline leukemia virus (FeLV) and is known to encode a 110-kilodalton gag-abl fusion protein with tyrosine-specific protein kinase activity (P. Besmer, W. D. Hardy, E. E. Zuckerman, P. J. Bergold, L. Lederman, and H. W. Snyder, Nature (London) 303:825-828, 1983). The nucleotide sequence of the abl segment in the HZ2-FeSV genome was determined and compared with the murine and human v-abl and c-abl sequences. The predicted transforming protein consists of 344 amino acids (aa) of FeLV gag origin, 439 aa of abl origin, and at least 200 aa of FeLV pol origin (p110gag-abl-pol). The 1,317-base-pair HZ2-FeSV v-abl segment (fv-abl) corresponds to 5' abl sequences which include the region known to specify the protein kinase domain. The 5' 189 base pairs of fv-abl correspond to 5' c-abl sequences not contained in Abelson murine leukemia virus (MuLV) v-abl. The mouse c-abl exon which contains these segments was identified, and its nucleotide sequence was determined. Comparison of the predicted amino acid sequence of fv-abl with those of Abelson MuLV v-abl and c-abl revealed five aa differences. The 5' junction between FeLV and abl was found to involve a preferred region in FeLV gag p30 (P. Besmer, J. E. Murphy, P. C. George, F. H. Qiu, P. J. Bergold, L. Lederman, H. W. Snyder, D. Brodeur, E. E. Zuckerman, and W. D. Hardy, Nature (London) 320:415-421, 1986). A six-base homology exists at the recombination site between the parental FeLV and the c-abl sequences. The 3' junction between fv-abl and FeLV pol predicts an in-frame fusion of fv-abl and FeLV pol. A transformed cell line containing a truncated gag-abl-pol protein, p85, that lacks most of the FeLV pol sequences was obtained by transfection of NIH 3T3 mouse cells. This result implies that the pol sequences of the p110gag-abl-pol protein are dispensable for fibroblast transformation. To assess whether the fv-abl segment specifies the unique biological properties of HZ2-FeSV, we constructed a Moloney MuLV-based version of HZ2-FeSV, Mo-MuLV(fv-abl), in which the fv-abl sequences were contained in a genetic context similar to that in HZ2-FeSV.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Nucleic acid sequence and oncogenic properties of the HZ2 feline sarcoma virus v-abl insert. 302 15

We investigated the role of the Moloney helper virus, Moloney murine leukemia virus (Mo-MuLV), in cell transformation and tumor induction by the defective Abelson murine leukemia virus (Ab-MuLV). A molecular clone of Ab-MuLV (P160 strain) was transfected into the psi 2 packaging cell line, and helper virus-free Ab-MuLV (psi 2) was harvested from the supernatant medium. Ab-MuLV (psi 2) was as efficient as helper virus-containing Ab-MuLV (Mo-MuLV) in the transformation of primary bone marrow cells in vitro. Inoculation of weanling BALB/c mice with Ab-MuLV (psi 2) induced nonthymic pre-B-cell lymphomas with high efficiency and short latency (28 days). Adult BALB/c mice were less sensitive to tumor induction by a factor of 100. Ab-MuLV (psi 2) did not induce tumors in weanling C57BL/6 mice, unlike Ab-MuLV (Mo-MuLV). Examination of the proviral integration pattern in Ab-MuLV (psi 2)-induced tumor cell DNA revealed that each of the tumors contained a single integrated provirus. Immunoprecipitation of viral-encoded proteins in helper virus-free tumor cell lines detected the P160 Ab-MuLV-transforming protein; however, no trace of the gag, pol, and env helper virus-encoded proteins was found. Our results indicate that integration and expression of a single Ab-MuLV genome is sufficient for efficient transformation of primary bone marrow cells by Ab-MuLV in vitro and tumor induction in susceptible mice. However, the helper virus may contribute to tumor induction in weanling resistant mice.
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PMID:Cell transformation and tumor induction by Abelson murine leukemia virus in the absence of helper virus. 303 15

In chicken cells, we previously identified a set of proteins (p58-64) structurally related to, but distinct from, the products encoded by the c-ets proto-oncogene. We report here the isolation and nucleotide sequence of a cDNA encoding nuclear products of mol. wt 58, 60, 62 and 64 kd, indistinguishable from those detected in chicken cells. The p60 and p64 species appear to represent phosphorylated versions on serine and threonine residues of p58 and p62. The homology of p58-64 to other ets-related proteins, including the v-ets encoded domain of the transforming protein of avian leukemia virus E26 and p54c-ets, the translation product of the chicken (Ck) c-ets gene, is confined to two regions of 175 and 96 amino acid residues localized respectively at the carboxy-terminal domain and close to the amino-terminal domain of these molecules. This cDNA corresponds to a gene localized in a locus distinct from that of c-ets which is transcribed as a 4.0-kb RNA species in most chicken tissues. We also identified the human (Hu) c-ets-2-encoded products as two proteins of 60 and 62 kd, highly related to chicken p58-64. This, together with the fact that the amino acid sequence of the cDNA encoding p58-64 is 95% identical to the reported partial sequence of a Hu-c-ets-2 cDNA, indicates that p58-64 are the translation products of the Ck-c-ets-2 gene.
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PMID:Identification in chickens of an evolutionarily conserved cellular ets-2 gene (c-ets-2) encoding nuclear proteins related to the products of the c-ets proto-oncogene. 329 99

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