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)

We have molecularly cloned a mutant of the v-myb, ets-containing E26 avian leukemia virus which is temperature sensitive for the transformation of myeloid cells. Cells infected with this mutant, ts21E26, are immature at 37 degrees C and can be induced to differentiate into resting, macrophage-like cells when shifted to 42 degrees C. The sequence of ts21E26 reveals a single relevant nucleotide alteration resulting in a threonine to arginine change in the highly conserved, putative DNA binding v-myb portion of the p135gag-myb-ets protein. Surprisingly, a ts21E26 viral construct in which the v-ets gene domain was deleted was only weakly temperature sensitive, although temperature sensitivity was largely restored in another v-ets deletion mutant whose 3' terminal sequences were replaced with those from the AMV v-myb gene. These results suggest that the temperature sensitive lesion in v-myb of ts21E26 alters the DNA binding capacity of p135 at 42 degrees C and that the primary structure of the C-terminus of this protein has an influence on the activity of sequences that are further upstream.
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PMID:A point mutation in the DNA binding domain of the v-myb oncogene of E26 virus confers temperature sensitivity for transformation of myelomonocytic cells. 285 41

Proteins that bind IgE play important roles in both the synthesis and function of IgE are therefore intimately involved in IgE-mediated human allergic disorders. This report describes the structure of an IgE-binding protein, as predicted from sequencing a cDNA cloned from rat basophilic leukemia cells. This protein contains two domains: the amino-terminal domain (140 amino acids) consists of a highly conserved repetitive amino acid sequence, Tyr-Pro-Gly-Pro/Gln-Ala/Thr-Pro/Ala-Pro-Gly-Ala, whereas the carboxyl-terminal domain (122 amino acids) shares significant sequence homology with a domain of lymphocyte/macrophage receptor for the Fc portion of IgG. Other proteins with this type of structure but with affinity for other immunoglobulin isotypes may exist and may represent a heretofore unidentified component of the immune system.
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PMID:An IgE-binding protein with a distinctive repetitive sequence and homology with an IgG receptor. 295 48

The transport of L-threonine and L-glutamine into murine P388 leukemia cells has been characterized. Threonine appears to be a specific substrate for a Na+-dependent amino acid transport system similar to system ASC of the HTC hepatoma cell. Threonine transport is uninhibited by 2-aminobicyclo[2,2,1]heptane-2-carboxylic acid and alpha-(methylamino)isobutyric acid, shows a pattern of transport similar to that seen in HTC hepatoma cells over the pH range of 5.5-7.5, and is inhibited by L-serine and L-cysteine. Approximately two-thirds of glutamine transport into P388 cells also appears to enter P388 cells via this ASC-analogous system. However, based upon (a) inhibition studies with threonine (where the K1 of threonine inhibition of glutamine transport was 7-fold the Km of threonine transport), (b) inhibition analysis of glutamine transport with various amino acids and amino acid analogues, and (c) different patterns of transport between threonine and glutamine over the pH range of 5.5-7.5, approximately one-third of glutamine transport can be attributed to a second Na+-dependent amino acid transport system. This system appears to be similar to the system N of rat hepatocytes. Glutamine and threonine do not appear to enter P388 cells via systems A or L to any significant degree. P388 cells do not appear to exhibit 'adaptive regulation' of amino acid transport. Differences in 'adaptive regulation' could therefore not be utilized for comparing threonine and glutamine transport.
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PMID:Characterization of L-threonine and L-glutamine transport in murine P388 leukemia cells in vitro. Presence of an N-like amino acid transport system. 308 65

The transport of glycine and L-lysine into murine P388 leukemia cells has been examined. Glycine transport appears to be shared by both systems A and ASC in P388 cells. Glycine transport is Na+-dependent and is effectively blocked by alpha-(methylamino)isobutyric acid, threonine and alanine but only a marginal reduction in transport is seen with 100-fold excess cold 2-aminobicyclo[2,2,1]heptane-2-carboxylic acid. System gly is not expressed in P388 cells. Lysine is largely transported by a Na+-independent, pH-insensitive system with a Km of 0.079 mM. Lysine transport is relatively unaffected by the addition of 100-fold excess cold alpha-(methylamino)isobutyric acid, 2-aminobicyclo[2,2,1]heptane-2-carboxylic acid and the anionic amino acids, L-glutamate and L-aspartate. A partial inhibition of lysine transport was observed with L-threonine and L-leucine while L-arginine and L-histidine radically decreased lysine transport. Lysine appears to be transported by a system similar to the system y+ seen in cultured human fibroblasts, Ehrlich ascites cells, and hepatoma cell lines.
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PMID:Further studies on amino acid transport in murine P388 leukemia cells in vitro. Presence of system y+. 310 85

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

Delivery of the bifunctional alkylating agent, PTT.119 [p-F-L-Phe-m-bis-(2-chloroethyl)amino-L-Phe-Met-ethoxy-HCl], into tumor cells is significantly greater compared to L-phenylalanine mustard (L-PAM) as demonstrated by the 2-fold reduction in PTT.119 dosage required to reduce the viable L1210 cell fraction by 50% (TCD50). This increased uptake and consequent cytolytic efficacy observed in Dulbecco's phosphate buffer was more apparent in culture medium; under this physiologic condition the TCD50 concentration of PTT.119 was 5 times lower than L-PAM. PTT.119 entry into leukemia cells was examined using competition transport assays assessing the ability of the tripeptide to compete with various amino acids and nonmetabolizable substrates for carrier receptors of the L, A and ASC transport systems. A 1-min exposure to a 1- to 50-fold excess of PTT.119 prior to addition of radiolabeled substrates significantly reduced within 60 s both sodium-dependent and sodium-independent uptake of leucine, methionine, threonine and alpha-[1-14C]-aminoisobutyric acid (AIB), but not MeAIB. In complimentary studies, L1210 cells were protected from PTT.119 cytolysis by an 8,000-fold excess of AIB, whereas beta-2-aminobicyclo[2.2.1]heptane-2-carboxylic acid (BCH) only abrogated tripeptide cytotoxicity by 95-97% even at BCH:PTT.119 ratios of 200,000. Leucine and methionine protection were significantly less effective; the TCD50 of leucine and methionine were 3.23 and 2.4 microM, respectively, compared to 11.41 microM for AIB and 7.96 microM for BCH. In addition, MeAIB and phenylalanine were totally unable to protect L1210 cells from PTT.119-induced cytolysis. The data indicate that L121 cells actively transport PTT.119 primarily by the BCH-sensitive, AIB-sensitive, MeAIB-insensitive L carrier system. A second, BCH-insensitive, AIB-sensitive and MeAIB-insensitive carrier which is also involved in tripeptide uptake is probably the ASC system.
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PMID:Multiple transport pathways for L1210 cells: uptake of PTT.119, a bifunctional alkylator with carrier amino acids. 341 61

Purified RNA polymerase II from chicken leukemia cells was found to be an effective substrate for protein kinase C but not cAMP-dependent protein kinase. Protein kinase C catalyzed the incorporation of 1-2 mol of phosphate per mol of polymerase II and the reaction was totally calcium and lipid dependent. Electrophoresis studies revealed a time-dependent increase of phosphate incorporation into RNA polymerase II subunits of 220 KDa, 180 KDa and 150 KDa, with a preferential phosphorylation of the 180 KDa polypeptide. The phosphorylated enzyme has a preference for using single-stranded DNA as the template for transcription, including transcription of the single-stranded myb oncogene sequence. Phosphoamino acid analysis indicated that both serine and threonine residues were phosphorylated at equal amounts. Phosphorylation by protein kinase C increased the affinity of substrate-polymerase binding and the initial rate of RNA synthesis, suggesting a mechanism by which gene expression can be activated by protein kinase C.
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PMID:Protein kinase C phosphorylates leukemia RNA polymerase II. 347 67

We have used oligonucleotide probes, based on a portion of the p60v-src autophosphorylation sequence, Glu-Asp-Asn-Glu-Tyr-Thr, to identify and characterize a cDNA from the human T-leukemia cell line, JURKAT. The JURKAT cDNA (designated ptk-JURKAT) was homologous to but distinct from the src, yes and fgr oncogenes, which encode protein-tyrosine kinases (ATP:protein phosphotransferase, EC 2.7.1.37). The ptk-JURKAT cDNA hybridized with a 2.2 kb RNA transcript from JURKAT cells and the human T-cell lymphoma line, MOLT-4, but failed to identify any transcript in two human B-cell lymphoma lines or a human erythroid-myeloid leukemia line, K562. Recently the nucleotide sequence has been established for the murine lymphocyte protein tyrosine kinase, p56LSTRA. The ptk-JURKAT cDNA appears to encode the human homolog of p56LSTRA.
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PMID:Human T lymphocytes express a protein-tyrosine kinase homologous to p56LSTRA. 348 86

The met oncogene was previously isolated from a chemically transformed human cell line, MNNG-HOS. Recent evidence has demonstrated that two classes of transcripts are expressed from the met proto-oncogene locus. The met oncogene, however, expresses an aberrant RNA which has sequences in common with both transcripts. We now report partial nucleotide sequencing of the human met oncogene and show that met is related to the protein kinase oncogenes and growth factor receptors. The met nucleotide sequence is not identical to that of any published gene, and it is more closely homologous to the tyrosine kinases than to the serine/threonine kinases. Within the tyrosine kinase family, the sequenced met domains are most closely related to the human insulin receptor and the viral abl gene. In situ chromosome hybridization has mapped met to human chromosome 7 band 7q21-q31, a location distinct from that of other kinases. This is also a region associated with nonrandom chromosomal deletions observed in a portion of patients with acute nonlymphocytic leukaemia. The accompanying paper shows that this chromosomal locus is also tightly linked with the human heredity disease cystic fibrosis.
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PMID:The human met oncogene is related to the tyrosine kinase oncogenes. 406 11

Urinary amino acid chromatograms were studied from 33 patients with various types of leukaemia and 71 control subjects. Marked variations were found in the excretion of methionine, threonine, valine, leucine, tyrosine, histidine, and aspartic acid.
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PMID:Urinary amino acid excretion in subjects with leukaemia. 522 27


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