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)

Susceptibility of rodent cells to infection by ecotropic murine leukaemia viruses (MuLV) is determined by binding of the virus envelope to a membrane receptor that has multiple membrane-spanning domains. Cells infected by ecotropic MuLV synthesize envelope protein, gp70, which binds to this receptor, thereby preventing additional infections. The consequences of envelope-MuLV receptor binding for the infected host cell have not been directly determined, partly because the cellular function of the MuLV receptor protein is unknown. Here we report a coincidence in the positions of the first eight putative membrane-spanning domains found in the virus receptor and in two related proteins, the arginine and histidine permeases of Saccharomyces cerevisiae (Fig. 1), but not in any other proteins identified by computer-based sequence comparison of the GenBank data base. Xenopus oocytes injected with receptor-encoding messenger RNA show increased uptake of L-arginine, L-lysine and L-ornithine. The transport properties and the expression pattern of the virus receptor behave in ways previously attributed to y+, the principal transporter of cationic L-amino acids in mammalian cells.
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PMID:Transport of cationic amino acids by the mouse ecotropic retrovirus receptor. 187 78

An immune complex transfer enzyme immunoassay for (anti-human T-cell leukemia virus type I) IgG (anti-HTLV-I IgG) in serum using a synthetic peptide, cys-gag p19(100-130), is described. Anti-HTLV-I IgG in test serum, which had been incubated with excess of inactive beta-D-galactosidase to eliminate interference by anti-beta-D-galactosidase antibodies, was reacted simultaneously with 2,4-dinitrophenyl bovine serum albumin-cys-gag p19(100-130) conjugate and cys-gag p19(100-130)-beta-D-galactosidase conjugate. The complex formed of the three components was trapped onto polystyrene balls coated with affinity-purified (anti-2,4-dinitrophenyl group) IgG. After washing to eliminate nonspecific IgG in the test serum and excess of the beta-D-galactosidase conjugate, the complex was eluted from the polystyrene balls with epsilon N-2,4-dinitrophenyl-L-lysine and transferred to polystyrene balls coated with affinity-purified (anti-human IgG gamma-chain) IgG. Beta-D-Galactosidase activity bound to the (anti-human IgG gamma-chain) IgG-coated polystyrene balls was assayed by fluorometry. This assay was 100-fold more sensitive than the conventional enzyme immunoassay, in which a cys-gag p19(100-130)-bovine serum albumin-coated polystyrene ball was incubated with test serum and, after washing, with (anti-human IgG gamma-chain) Fab'-peroxidase conjugate. The degree of inhibition by preincubation of test sera with excess of cys-gag p19(100-130) in combination with an appropriate cut-off value for the fluorescence intensity of bound beta-D-galactosidase activity discriminated almost all seropositive samples from seronegative ones.
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PMID:Immune complex transfer enzyme immunoassay for (anti-human T-cell leukemia virus type I) IgG in serum using a synthetic peptide, Cys-Gag p19(100-130), as antigen. 168 32

Histamine was coupled to poly(L-glutamate) (PLG) to give a copolymer, poly(glutamylhistamineglutamate) (PHG), with approx. 40% of carboxyl groups in PLG being modified. Unlike either poly(L-histidine) (PLH) or PLG, PHG precipitated only in buffers with pH between 4 and 5. A complex was formed between PHG and poly(L-lysine) (PLL) at pH 7, but it was rapidly dissociated at pH 5 or lower. When PHG-linked transferrin (Tf-PHG) was used to deliver a PLL-conjugated [3H]methotrexate ([3H]MTX-PLL) in K562 leukemia cell cultures, an intracellular accumulation of the radioactivity was observed. These results suggest that a copolymer with both imidazole and carboxyl groups can be useful in the design of acid-sensitive, carrier-mediated drug delivery systems.
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PMID:Acid-sensitive dissociation between poly(lysine) and histamine-modified poly(glutamate) as a model for drug-releasing from carriers in endosomes. 169 60

Treatment of murine leukemia virus reverse transcriptase (MuLV RT) with 4-(oxoacetyl)-phenoxyacetic acid (OAPA) results in the loss of DNA polymerase as well as template-primer binding activity but has no effect on the RT-associated RNase-H activity. Binding stoichiometry revealed that approximately 3 mol of OAPA bound per mole of enzyme, when complete enzyme activation occurred. However, in the presence of template-primer, OAPA does not abolish polymerase activity and 2 mol of OAPA remains bound to 1 mol of enzyme. This observation suggests that only one OAPA reactive site is responsible for the loss of polymerase activity. This site was located on a single tryptic peptide by comparing the maps of the native enzyme and the enzyme treated with OAPA in the presence and absence of template-primer. The appearance of a new peptide peak eluting at 125 min from a C-18 reverse-phase column was consistently noted in the tryptic digest of enzyme treated with OAPA. This peak was absent in tryptic peptides made from the control enzyme or the enzyme protein that was treated with OAPA in the presence of activated DNA or synthetic template-primers. Amino acid composition and sequence analyses of this peptide revealed that it spanned residues 312-342 in the primary amino acid sequence of MuLV RT. Since this peptide does not contain arginine residues and Lys-329 exhibited resistance to tryptic digestion, we conclude that Lys-329 is the target of OAPA action.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lysine-329 of murine leukemia virus reverse transcriptase: possible involvement in the template-primer binding function. 169 96

The effect of two missense mutations in abl on transformation by Abelson murine leukemia virus was evaluated. These mutations led to the substitution of a histidine for Tyr-590 and a glycine for Lys-536. Both changes gave rise to strains that were temperature dependent for transformation of both NIH 3T3 cells and lymphoid cells when expressed in the context of a truncated Abelson protein. In the context of the prototype P120 v-abl protein, the Gly-536 substitution generated a host range mutant that induced conditional transformation in lymphoid cells but had only a subtle effect on NIH 3T3 cells. The combination of both substitutions gave rise to a P120 strain that was temperature sensitive for both NIH 3T3 and lymphoid cell transformation. The Abelson proteins encoded by the temperature-sensitive strain displayed in vitro kinase activities that were reduced when compared with those of wild-type proteins. In vivo, levels of phosphotyrosine were reduced only at the restrictive temperature. Analysis of cells expressing either the wild-type P160 v-abl protein or the P210 bcr/abl protein and an Abelson protein encoded by a temperature-sensitive strain failed to correct this defect, suggesting either that tyrosine phosphorylation in vivo is an intramolecular reaction or that the protein encoded by the temperature-sensitive strain is a poor substrate for tyrosine phosphorylation in vivo. These results raise the possibility that tyrosine phosphorylation of Abelson protein plays a role in transformation.
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PMID:Temperature-sensitive mutants of Abelson murine leukemia virus deficient in protein tyrosine kinase activity. 169 37

Lys103 and Lys421 of Moloney murine leukemia virus reverse transcriptase have been implicated in the dNTP binding function as judged by their reactivity to a substrate binding site-directed reagent, pyridoxal 5'-phosphate (Basu, A., Nanduri, V. B., Gerard, G. F., and Modak, M. J. (1988) J. Biol. Chem. 263, 1648-1653). To assess the true catalytic importance of the individual lysine residues in Moloney murine leukemia virus reverse transcriptase, we mutated Lys103 and Lys421 to leucine and alanine, respectively. Analysis of the mutant enzymes revealed that mutation at the 103 position had a drastic effect on the DNA polymerase activity whereas the 421 mutation had no effect. Both mutants exhibited normal RNase H activity as well as the ability to bind to RNA or DNA templates as judged by UV-mediated cross-linking of the enzyme to the template primers. The enzyme with mutation at codon 421 (Lys----Ala) exhibited properties that were indistinguishable from the wild type with respect to its mode of catalysis, i.e. preference of template primer and divalent metal ion, RNA- or DNA-dependent DNA polymerase activity, RNase H activity, and the processive mode of DNA synthesis. These observations suggest that only Lys103 and not Lys421 is the catalytically important residue that is involved in the binding of substrate dNTP in Moloney murine leukemia virus reverse transcriptase.
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PMID:Site-directed mutagenesis of Moloney murine leukemia virus reverse transcriptase. Demonstration of lysine 103 in the nucleotide binding site. 169 72

Treatment of murine leukemia virus reverse transcriptase (MuLV RT) with potassium ferrate, an oxidizing agent known to oxidize amino acids involved in phosphate binding domains of proteins, results in the irreversible inactivation of both the DNA polymerase and the RNase H activities. Significant protection from ferrate-mediated inactivation is observed in the presence of template-primer but not in the presence of substrate deoxynucleoside triphosphates. Furthermore, ferrate-treated enzyme loses template-primer binding activity as judged by UV-mediated cross-linking of radiolabeled DNA. Comparative tryptic peptide mapping by reverse-phase HPLC of native and ferrate-oxidized enzyme indicated the presence of two new peptides eluting at 38 and 57 min and a significant loss of a peptide eluting at 74 min. Purification, amino acid composition, and sequencing of these affected peptides revealed that they correspond to amino acid residues 285-295, 630-640, and 586-599, respectively, in the primary amino acid sequence of MuLV RT. These results indicate that the domains constituted by the above peptides are important for the template-primer binding function in MuLV RT. Peptide I is located in the polymerase domain whereas peptides II and III are located in the RNase H domain. Amino acid sequence analysis of peptides I and II suggested Lys-285 and Cys-635 as the probable sites of ferrate action.
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PMID:Ferrate oxidation of murine leukemia virus reverse transcriptase: identification of the template-primer binding domain. 171

We have purified a protein from the granules of the rat NK leukemia cell line (RNK) that is cytostatic to a variety of tumor cells. This protein shows no species specificity because certain tumor cell lines of mouse, rat, and human origin were equally sensitive to its growth inhibitory effects. Treatment of sensitive cells resulted in a rounding of the cells followed by homotypic aggregation into large aggregates. The granule protein was distinct from cytolysin, Na-Cbz-Lys-thiobenzylester-esterase, or leukolexin. It had a molecular mass of 29 to 31 kDa, bound strongly to heparin, was inactivated by heating at 70 degrees C for 5 min or reduction, but was stable to trypsin treatment. By using molecular sieve chromatography, heparin agarose chromatography, and reverse phase HPLC, this protein was purified to homogeneity. The first 33 amino acids of the N-terminal amino acid sequence showed complete identity to the sequence predicted from a rat serine protease gene recently cloned and designated RNKP-1. Therefore we have purified a novel serine protease and demonstrated that it has effects on the growth and morphology of certain tumor cells. Other serine proteases that were structurally related and have substantial homology with RNKP-1 at the amino acid level showed neither growth inhibitory properties nor affected the morphology of the tumor target cells we used.
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PMID:Purification of a factor from the granules of a rat natural killer cell line (RNK) that reduces tumor cell growth and changes tumor morphology. Molecular identity with a granule serine protease (RNKP-1). 172 74

We report the purification from a rat natural killer (RNK) large granular lymphocyte leukemia of a 32-kD granule protein that induces rapid DNA fragmentation and apoptosis. The protein, which we have called "fragmentin," was capable of causing DNA from intact YAC-1 cells to be cleaved into oligonucleosomal-sized fragments and producing severe chromatin condensation within 1 h. Amino acid sequence of tryptic peptides indicated that fragmentin was highly homologous to the NK and T cell granule serine proteases RNK protease 1 and mouse cytotoxic T cell protease I (CCPI)/granzyme B. Preincubation with the serine esterase inhibitor 3,4-dichloroisocoumarin blocked fragmentin-induced DNA damage, but had no effect on cytolysin. Fragmentin activity against four lymphoma target cells was completely dependent on the presence of cytolysin. Fragmentin produced rapid membrane damage as well as DNA fragmentation at nonlytic cytolysin doses, suggesting that fragmentin activity was not limited to its effects on the nucleus. Fragmentin and cytolysin activity were completely inhibited by EGTA, indicating the process was Ca2+ dependent. A role for cytolysin in endocytosis of fragmentin was suggested by the observation that treatment of YAC-1 with cytochalasin B or sodium azide and 2-deoxyglucose blocked DNA fragmentation but not cytolysin activity. A 30-kD N alpha-CBZ-L-lysine thiobenzyl esterase, which copurified with fragmentin, was inactive on its own but was able to synergistically amplify the DNA damage induced by fragmentin in the presence of cytolysin. Fragmentin activity was not dependent on protein synthesis, as cycloheximide treatment of YAC-1 cells did not prevent DNA damage. We postulate that fragmentin is the molecular mediator of NK cell-mediated DNA fragmentation and apoptosis.
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PMID:A natural killer cell granule protein that induces DNA fragmentation and apoptosis. 173 16

Ditercalinium (NSC 366241) is a 7H-pyrido[4,3-c]carbazole dimer with a diethylbipiperidine rigid chain linking the two heterocyclic rings. Ditercalinium is characterized by a high DNA affinity and bisintercalating ability, associated with potent antitumor properties, involving an original mechanism of action. Unfortunately as ditercalinium is hepatotoxic, its clinical evaluation has been interrupted. In order to eliminate or at least minimize the serious drawbacks related to its toxic effects, several chemical modifications have been made to the structure of ditercalinium, and their influence has been evaluated by measuring the DNA affinities, intercalation properties, and toxicity toward leukemia cells of the newly synthesized dimers. Reduction of the pyridinic moieties of ditercalinium, in order to suppress the permanent charges provided by the quaternizing chain, led to an almost complete loss of activity, although the DNA bisintercalating property of the dimer was preserved. Dimerization of the 7H-pyrido[4,3-c]carbazole rings by introduction of the rigid spacer on the N7- or C6-positions corresponding to the convex face of the pyridocarbazole, instead of the N2-position in ditercalinium, led to DNA bisintercalating dimers practically devoid of antitumor properties. However after quaternarization of the N2 atoms, the dimer linked by the N7 atoms exhibited a very high DNA affinity (greater than 10(9) M-1) and recovered antitumor activity, supporting the requirement of positive charges for the emergence of antitumor activity in these dimers. Introduction on the C6 of the 7H-pyridocarbazole ring of an aminomethyl or carboxyl group, a sugar residue, or C or N free amino acids such as Lys or Glu has also been carried out, in order to increase the hydrophilic properties of the molecules or to enable them to use amino acid transport systems. Although some of these compounds were active, none of them exhibited the pharmacological potency of ditercalinium.
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PMID:Synthesis and biological activity of new dimers in the 7H-pyrido[4,3-c] carbazole antitumor series. 173 35


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