Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Glycoproteins from the human T leukemia cells Jurkat were found to bind to the GalNAc alpha 1----Ser/Thr-specific lectin from Salvia sclarea seeds. The analysis of the O-linked saccharides of immunopurified leukosialin, the major [3H]glucosamine-labeled glycoprotein in Jurkat cell lysate, revealed the presence of mainly GalNAc alpha 1----Ser/Thr with only minor amounts (approximately 17%) of more complex O-glycans. A comparison between Jurkat and K562 cell glycosyltransferase involved in the biosynthesis of O-linked carbohydrates showed that a markedly lower activity of UDP-Gal:GalNAc alpha 1----Ser/Thr beta 1----3galactosyltransferase is apparently responsible for the presence of truncated O-glycans in the Jurkat cell line. The O-glycosylation defect makes Jurkat cells an ideal model to study the initiation of O-linked saccharides. Pulse-chase experiments with [35S] methionine showed that the addition of GalNAc to leukosialin is responsible for the decreased mobility of the mature glycoprotein on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Furthermore, no biosynthetic intermediates between the O-glycan-free precursor and the fully O-glycosylated form could be detected either with an anti-leukosialin antiserum or with the GalNAc-specific lectin. Lowering the chase temperature to 15 degrees C completely inhibited the transfer of GalNAc to the peptide core indicating that O-glycan initiation takes place in the first Golgi elements and not in transitional vesicles between endoplasmic reticulum and Golgi. In addition, treatment of the cells with monensin did not inhibit GalNAc transfer to leukosialin apoprotein. These results indicate that the initiation of O-glycosylation in Jurkat cells starts in the cis-Golgi stacks.
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PMID:Biosynthesis of truncated O-glycans in the T cell line Jurkat. Localization of O-glycan initiation. 214 May 70

ts1, a spontaneous temperature-sensitive mutant of Moloney murine leukemia virus TB, causes hind-limb paralysis in mice. A Val-25----Ile substitution in gPr80env is responsible for temperature sensitivity, inefficient processing of gPr80env, and neurovirulence. In this study, the Ile-25 in gPr80env was replaced with Thr, Ala, Leu, Gly, and Glu by site-directed mutagenesis of the codon for Ile-25 to generate a new set of mutant viruses, i.e., ts1-T, -A, -L, -G, and -E, respectively. The phenotypic characteristics of these mutant viruses differed from those of ts1. For each mutant, the degree of temperature sensitivity was correlated with the degree of inefficient processing of gPr80env, and the following rank order was observed for both parameters: ts1-E greater than ts1-G greater than ts1-L greater than ts1-A greater than ts1 greater than ts1-T. In FVB/N mice, mutant viruses of low and intermediate temperature sensitivity and inefficiency in processing of gPr80env were neurovirulent and consistently caused mutant-specific disease profiles: ts1-T caused severe whole-body tremor, ts1-A generally caused hind-limb paralysis, and ts1-L generally caused a delayed-onset paraparesis. By 150 days postinfection, FVB/N mice that were infected with ts1-G and -E, mutants of high temperature sensitivity and inefficiency in processing of gPr80env, had lymphoid leukemia instead of a neurological disease. These results suggest that the dynamics of gPr80env processing are important in determining the neurovirulent phenotype in vivo.
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PMID:Site-directed mutagenesis of the codon for Ile-25 in gPr80env alters the neurovirulence of ts1, a mutant of Moloney murine leukemia virus TB. 221 16

We have made a computer-assisted search for homology among polymerases or putative polymerases of various viruses and a transposable element, the Drosophila copia-like element 17.6. The search revealed that the putative polymerase (second open reading frame) of the copia-like element 17.6 bears close resemblance in overall structural organization to the pol gene product of Moloney murine leukaemia virus (M-MuLV): they show significant homology to each other at both the N- and C-terminal portions, suggesting that the 17.6 putative polymerase carries two enzymatic activities, related to reverse transcriptase and DNA endonuclease. The putative polymerase of cauliflower mosaic virus (CaMV) shows striking homology with the putative polymerase of 17.6 over almost its entire length, but it lacks the DNA endonuclease-related sequence. Furthermore, it was shown that the N-terminal ends of the M-MuLV pol product and the CaMV and 17.6 putative polymerases exhibit strong sequence homology with the gag-specific protease (p15) of Rous sarcoma virus (RSV) as well as the amino acid sequence predicted from the gag/pol spacer sequence of human adult T-cell leukaemia virus (HTLV). These p15-related sequences contain a highly conserved stretch of amino acids which show a close similarity with sequences around the active site amino acids Asp-Thr-Gly of the acid protease family, suggesting that they have an activity similar to acid protease. On the basis of the alignment of reverse transcriptase-related sequences, a dendrogram representing phylogenetic relationships among all the viruses compared together with 17.6 was constructed and its evolutionary implication is discussed.
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PMID:Close structural resemblance between putative polymerase of a Drosophila transposable genetic element 17.6 and pol gene product of Moloney murine leukaemia virus. 240 86

The NH2-terminal amino acid sequence of Moloney murine leukemia virus reverse transcriptase was determined to be Thr-Leu-Asn-Ile-Glu-Asp-Glu-Tyr-Arg-Leu-His-Glu-. The comparison of the amino acid analysis data obtained after carboxypeptidase Y digestion with the published nucleotide sequence (T. M. Shinnick, R. A. Lerner, and J. G. Sutcliffe, Nature (London) 293, 543-548, 1981) led to the conclusion that the COOH-terminus is Leu coded by CTC in nucleotide positions 4608-4610, and the tentative COOH-terminal sequence is Pro-Asp-Thr-Ser-Thr-Leu-Leu-OH. In light of these and previously reported results the complexity and map order of the pol gene are discussed.
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PMID:Amino- and carboxyl-terminal sequence of Moloney murine leukemia virus reverse transcriptase. 241 14

We have constructed an expression plasmid containing the portion of the Moloney murine leukemia virus genome encoding the reverse transcriptase (RT). When introduced into Escherichia coli this plasmid induces the synthesis of a 70-kDa protein. The RT made in E. coli differs from the viral protein only in that there are two new amino acids, methionine and glycine, substituted for the threonine found at the N terminus of the viral enzyme. Approximately half of the E. coli synthesized RT enzyme is soluble in cell extracts. This protein is active in an RT assay, and like the enzyme purified from virions, is more active in the presence of Mn2+ than Mg2+. We have also constructed a plasmid that induces the synthesis of an RT-integration protein fusion.
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PMID:Expression in Escherichia coli of a Moloney murine leukemia virus reverse transcriptase whose structure closely resembles the viral enzyme. 245 89

Adriamycin, a lipid-interacting anti-cancer agent, was found to inhibit the phosphorylation of polyGlu/Tyr (4:1) by tyrosine protein kinases either from spleen or expressed by the oncogene of Abelson murine leukemia virus. The dose dependent inhibition by adriamycin is accounted for by competition for the ATP binding site, but it is also deeply influenced by the nature and concentration of the phosphorylatable substrate, suggesting multiple interactions with the enzyme. The phosphorylation at tyrosine residues of cytosolic proteins from cells transformed by Abelson leukemia virus and the autophosphorylation of tyrosine protein kinases are also inhibited by adriamycin. Unlike tyrosine protein kinases most serine/threonine specific protein kinases, with the notable exception of protein kinase-C, appear to be relatively insensitive to adriamycin.
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PMID:Inhibition of tyrosine protein kinases by the antineoplastic agent adriamycin. 254 96

The full-length provirus of human T-cell leukemia virus type I (HTLV-I) was isolated from MT-2, a lymphoid cell line producing HTLV-I. In transfected cells, structural proteins of HTLV-I, the gag and env products, were formed and processed in the same manner as observed in MT-2 cells. The nucleotide sequence was determined for a region between the gag and pol genes of the proviral DNA clone containing an open-reading frame. The deduced amino acid sequences show that this open-reading frame encodes a putative HTLV-I protease. The protease gene (pro) of HTLV-I was investigated using a vaccinia virus expression vector. Processing of 53k gag precursor polyprotein into mature p19, p24, and p15 gag structural proteins was detectable with a recombinant plasmid harboring the entire gag- and protease-coding sequence. We demonstrated that the protease processed the gag precursor polyprotein in a trans-action. A change in the sequence Asp(64)-Thr-Gly, the catalytic core sequence among aspartyl proteases, to Gly-Thr-Gly was shown to abolish correct processing, suggesting that HTLV-I protease may belong to the aspartyl protease group. The 76k gag-pro precursor polyprotein was identified, implying that a cis-acting function of HTLV-I protease may be necessary to trigger the initial cleavage event for its own release from a precursor protein, followed by the release of p53 gag precursor protein. The p53 gag precursor protein is then processed by the trans-action of the released protease to form p19, p24, and p15.
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PMID:Identification of HTLV-I gag protease and its sequential processing of the gag gene product. 266 87

The envelope glycoproteins of the human immunodeficiency virus (HIV) type 1 are synthesized as a precursor molecule, gp160, which is cleaved to generate the two mature envelope glycoproteins, gp120 and gp41. The cleavage reaction, which is mediated by a host protease, occurs at a sequence highly conserved in retroviral envelope glycoprotein precursors. We have investigated the sequence requirements for this cleavage reaction by introducing four single-amino-acid changes into the glutamic acid-lysine-arginine sequence immediately amino terminal to the site of cleavage. We have also examined the effects of these mutations on the syncytium formation induced by HIV envelope glycoproteins. Our results indicate that a glutamic acid to glycine change at gp120 amino acid 516, a lysine to isoleucine change at amino acid 517, and an arginine to lysine change at amino acid 518 affect neither gp160 cleavage nor syncytium formation. The results obtained with the arginine to lysine change at amino acid 518 differ significantly from the results obtained with the same mutation at the envelope precursor cleavage site of a murine leukemia virus (E. O. Freed, and R. Risser, J. Virol. 61:2852-2856, 1987). An arginine to threonine mutation at gp120 amino acid 518, the terminal residue of gp120, abolishes both gp160 cleavage and syncytium formation. These findings demonstrate that despite its highly conserved nature, the basic pair of amino acids at the site of gp160 cleavage is not absolutely required for proper envelope glycoprotein processing. This report also supports the idea that cleavage of gp160 is required for activation of the HIV envelope fusion function.
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PMID:Mutational analysis of the cleavage sequence of the human immunodeficiency virus type 1 envelope glycoprotein precursor gp160. 267

Monoclonal antibody 114/A10, raised against the murine multipotential hemopoietic progenitor cell line B6SUtA, identifies an antigen highly expressed by primary myeloid progenitor cells, the myelomonocytic leukemia cell line WEHI-3, and various interleukin-3 (IL-3)-dependent cell lines. Western blotting studies indicate that the 114/A10 antigen has a mean relative molecular mass of 150,000 but varies greatly in size range between different cell types. cDNA clones encoding this protein were isolated from a plasmid-based expression vector library prepared from B6SUtA RNA. Three clones corresponding in size to the two major mRNA species detected in IL-3-dependent cell lines (3.0 and 2.2 kilobase pairs) and differing in their utilization of alternative polyadenylation signals were obtained. These clones contain a single long open reading frame of 573 amino acids possessing the typical characteristics of an integral membrane protein. A particularly striking feature of this sequence is the presence at the extracellular amino terminus of a series of eight highly conserved 27-amino acid, serine/threonine-rich (55%) tandem repeats that may serve as sites of extensive glycosylation. The extracellular domain also contains three epidermal growth factor-like cysteine-rich repeats. The distribution and structural characteristics of the 114/A10 antigen suggest a possible regulatory role in the cellular response to IL-3.
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PMID:Molecular cloning of 114/A10, a cell surface antigen containing highly conserved repeated elements, which is expressed by murine hemopoietic progenitor cells and interleukin-3-dependent cell lines. 278 93

Retrovirus protease is an enzyme that cleaves gag and gag-pol precursor polyproteins into the functional proteins of mature virus particles. The correct processing of precursor polyproteins is necessary for the infectivity of virus particles: in vitro mutagenesis which introduces deletions into the murine leukaemia virus genome produces a protease-defective virus of immature core form and lacking infectivity. A therapeutic drug effective against disease caused by retrovirus proliferation could likewise interfere with virus maturation. The primary structure has so far been determined for the protease of avian myeloblastosis virus, and of murine, feline and bovine leukaemia viruses. Amino acid sequencing of the retrovirus proteases, either after their purification or from prediction from the nucleotide sequence, shows that they possess the Asp-Thr-Gly sequence characteristic of the aspartyl proteinases. In this report we show that retrovirus proteases belong to the aspartyl proteinase group and demonstrate an inhibition by the aspartyl proteinase-specific inhibitor, pepstatin A, on the activity of bovine leukaemia, Moloney murine leukaemia and human T-cell leukaemia virus proteases.
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PMID:Inhibition of retroviral protease activity by an aspartyl proteinase inhibitor. 282 9


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