UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
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Concurrent activation of BCL2 and MYC usually occurs in B cell non-Hodgkin lymphoma (B-NHL) by translocation of both oncogenes to both immunoglobulin heavy chain (IGH) alleles: this abrogates immunoglobulin synthesis. We have studied three B-NHL cell lines (DoHH2, VAL and ROS 50) and show that concurrent activation of BCL2 and MYC may follow translocation of both oncogenes to the same IGH allele. Conventional cytogenetics of DoHH2 suggested the presence of a t(14;18)(q32;q21) translocation. However, fluorescent in situ hybridization (FISH) studies using whole chromosome paints, alpha satellite probes and flow-sorted chromosomes as probes revealed an unexpected complexity of rearrangements involving chromosomes 8, 14 and 18, namely t(8;14;18)(q24;q32;q21). DNA blot and previous PCR analysis confirmed the juxtaposition of BCL2 major breakpoint region (mbr) with IGJH6, but also demonstrated a rearrangement within the first exon of MYC. The centromeric (5') MYC rearranged fragment comigrated with the BCL2-JH6 rearranged fragment in BamHI, EcoRI and Bg/II restriction digests. The der(8)t(8;14;18) therefore comprised 5' MYC (exon I)-Sgamma4-JH6-BCL2 mbr. Similar rearrangements were observed in both ROS 50 and VAL cell lines which contained two and three copies of the der(8)t(8;14;18) respectively. Quantitative flow cytometry for BCL2 and MYC expression showed abundant expression of both proteins in all three lines. These data indicate the der(14)t(14;18)(q32;q21) may itself be the target for any second translocation. The presence of the intact BCL2-JH fusion gene on the der(8)t(8;14;18) allowed concurrent activation of both BCL2 and MYC with no loss of immunoglobulin expression.
Leukemia 1996 Jul
PMID:Concurrent activation of MYC and BCL2 in B cell non-Hodgkin lymphoma cell lines by translocation of both oncogenes to the same immunoglobulin heavy chain locus. 868 2

Reverse transcriptase (RT) plays a critical role in retrovirus replication, directing the synthesis of a double- stranded DNA copy of the viral RNA genome. We have previously described a mutant RT of the Moloney murine leukemia virus in which F155 was replaced by valine, and we demonstrated that this substitution allowed the enzyme to incorporate ribonucleotides to form RNA while still retaining its normal ability to incorporate deoxyribonucleotides to form DNA. When introduced into the viral genome, this mutation rendered the virus incapable of replication. Characterization of the mutant virus revealed that the enzyme was still active and able to synthesize minus-strand strong stop DNA and some longer products but failed to make full-length minus-strand DNA. We propose that the failure of the enzyme to complete DNA synthesis in vivo resulted from its ability to incorporate ribonucleotides into the products, which served as inhibitors for DNA synthesis. We also tested seven other amino acid residues for their abilities to substitute for F155 in virus replication; of these, only tyrosine could support virus replication. In an attempt to select for second-site suppressor mutations, the F155V mutant was subjected to random mutagenesis and was used as a parent for the isolation of revertant viruses. Two independent revertants were found to have changed the valine residue at position 155 back to the wild- type phenylalanine. These results suggest that an aromatic ring at this position is important for virus replication.
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PMID:Replication defect of moloney murine leukemia virus with a mutant reverse transcriptase that can incorporate ribonucleotides and deoxyribonucleotides. 962 Oct 52

The curative effect of allogeneic bone marrow transplantation (BMT) is in part due to an alloresponse of donor lymphocytes against recipient leukemia termed the graft versus leukemia (GvL) effect. To identify target antigens for the GvL response on leukemia cells, we looked for polymorphism of proteinase 3, a primary granule protein overexpressed in myeloid leukemias. The study was carried out in 10 patients with hematologic diseases and their HLA-identical marrow donors. By polymerase chain reaction (PCR)-single strand conformation polymorphism assay, followed by direct sequencing of the PCR products, we found seven DNA polymorphisms. One of them encodes for either an isoleucine or a valine at position 119 of the amino acid sequence. Peptides that span the polymorphic site, at amino acids 115-124, were shown to bind in vitro to the HLA-A2 molecule. We screened 23 HLA-A2 patients with myeloid leukemia and their HLA-identical donors for this polymorphism. No relapse was found in the group of 4 evaluable patients who possessed at least one allele absent in their donor, whereas 7 of the 15 remaining evaluable patients relapsed. These data support the possibility that T-cell responses to allelic differences of proteinase 3 could be used as a basis for designing leukemia-specific adoptive T-cell therapy in acute and chronic myeloid leukemias.
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PMID:Donor-recipient polymorphism of the proteinase 3 gene: a potential target for T-cell alloresponses to myeloid leukemia. 992 93

1. Small, N- to C-terminal cyclized peptides containing the leucyl-aspartyl-valine (LDV) motif from fibronectin connecting segment-1 (CS-1) have been investigated for their effects on the adhesion of human T-lymphoblastic leukaemia cells (MOLT-4) to human plasma fibronectin in vitro mediated by the integrin Very Late Antigen (VLA)-4 (alpha4beta1, CD49d/CD29). 2. Cyclo(-isoleucyl-leucyl-aspartyl-valyl-aminohexanoyl-) (c(ILDV-NH(CH2)5CO)) was approximately 5 fold more potent (IC50 3.6+/-0.44 microM) than the 25-amino acid linear CS-1 peptide. Cyclic peptides containing two more or one less methylene groups had similar potency to c(ILDV-NH(CH2)5CO) while a compound containing three less methylene groups, c(ILDV-NH(CH2)2CO), was inactive at 100 microM. 3. c(ILDV-NH(CH2)5CO) had little effect on cell adhesion mediated by two other integrins, VLA-5 (alpha5,beta1, CD49e/CD29) (K562 cell adhesion to fibronectin) or Leukocyte Function Associated molecule-1 (LFA-1, alphabeta2, CD11a/CD18) (U937 cell adhesion to Chinese hamster ovary cells transfected with intercellular adhesion molecule-1) at concentrations up to 300 microM. 4. c(ILDV-NH(CH2)5CO) inhibited ovalbumin delayed-type hypersensitivity or oxazolone contact hypersensitivity in Balb/c mice when dosed continuously from subcutaneous osmotic mini-pumps (0.1-10 mg kg(-1) day(-1)). Maximum inhibition (approximately 40%) was similar to that caused by the monoclonal antibody PS/2 (7.5 mg kg(-1) i.v.) directed against the alpha4 integrin subunit. 5. c(ILDV-NH(CH2)5CO) also inhibited oxazolone contact hypersensitivity when dosed intravenously 20 h after oxazolone challenge (1-10 mg kg(-1)). Ear swelling was reduced at 3 h and 4 h but not at 1 h and 2 h post-dose (10 mg kg(-1)). 6. Small molecule VLA-4 inhibitors derived from c(ILDV-NH(CH2)5CO) may be useful as anti-inflammatory agents.
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PMID:Anti-inflammatory activity of c(ILDV-NH(CH2)5CO), a novel, selective, cyclic peptide inhibitor of VLA-4-mediated cell adhesion. 1037 17

Feline leukemia virus subgroup B (FeLV-B) and gibbon ape leukemia virus (GALV) utilize the human protein Pit1 but not the related protein, Pit2, as receptor. A stretch of 9 amino acids, named region A, was identified in the putative fourth extracellular loop of Pit1 (residues 550 through 558) as critical for FeLV-B and GALV receptor function. However, the presence of Pit1 region A did not confer receptor function for FeLV-B upon Pit2, while it did so for GALV. We have here shown that the presence of two Pit1-specific loop 4 residues (tyrosine 546 and valine 548) in addition to Pit1 region A is sufficient to make Pit2 an efficient FeLV-B receptor; that is, a stretch of 13 amino acids encompassing all loop 4 amino acid differences between Pit1 and Pit2 comprises a C-terminal determinant for FeLV-B receptor function. Thus, the same limited receptor region is sufficient to confer receptor function for both viruses upon Pit2.
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PMID:A 13-amino-acid Pit1-specific loop 4 sequence confers feline leukemia virus subgroup B receptor function upon Pit2. 1068 13

The envelope protein is a primary pathogenic determinant for T-cell-tropic feline leukemia virus (FeLV) variants, the best studied of which is the immunodeficiency-inducing virus, 61C. We have previously demonstrated that T-cell-tropic, cytopathic, and syncytium-inducing viruses evolve in cats infected with a relatively avirulent, transmissible form of FeLV, 61E. The envelope gene of an 81T variant, which encoded scattered single-amino-acid changes throughout the envelope as well as a 4-amino-acid insertion in the C-terminal half of the surface unit (SU) of envelope, was sufficient to confer the T-cell-tropic, cytopathic phenotype (J. L. Rohn, M. S. Moser, S. R. Gwynn, D. N. Baldwin, and J. Overbaugh, J. Virol. 72:2686-2696, 1998). In the present study, we examined the role of the 4-amino-acid insertion in determining viral replication and tropism of FeLV-81T. The 4-amino-acid insertion was found to be functionally equivalent to a 6-amino-acid insertion at an identical location in the 61C variant. However, viruses expressing a chimeric 61E/81T SU, containing the insertion together with the N terminus of 61E SU, were found to be replication defective and were impaired in the processing of the envelope precursor into the functional SU and transmembrane (TM) proteins. In approximately 10% of cultured feline T cells (3201) transfected with the 61E/81T envelope chimeras and maintained over time, replication-competent tissue culture-adapted variants were isolated. Compensatory mutations in the SU of the tissue culture-adapted viruses were identified at positions 7 and 375, and each was shown to restore envelope protein processing when combined with the C-terminal 81T insertion. Unexpectedly, these viruses displayed different phenotypes in feline T cells: the virus with a change from glutamine to proline at position 7 acquired a T-cell-tropic, cytopathic phenotype, whereas the virus with a change from valine to leucine at position 375 had slower replication kinetics and caused no cytopathic effects. Given the differences in the replication properties of these viruses, it is noteworthy that the insertion as well as the two single-amino-acid changes all occur outside of predicted FeLV receptor-binding domains.
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PMID:Feline leukemia virus envelope sequences that affect T-cell tropism and syncytium formation are not part of known receptor-binding domains. 1084 53

The antiretroviral nucleoside analog 2',3'-dideoxy-3'-thiacytidine (3TC) is a potent inhibitor of wild-type human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT). A methionine-to-valine or methionine-to-isoleucine substitution at residue 184 in the HIV-1 YMDD motif, which is located at the RT active site, leads to a high level of resistance to 3TC. We sought to determine whether 3TC can inhibit the replication of wild-type murine leukemia virus (MLV), which contains V223 at the YVDD active site motif of the MLV RT, and of the V223M, V223I, V223A, and V223S mutant RTs. Surprisingly, the wild type and all four of the V223 mutants of MLV RT were highly resistant to 3TC. These results indicate that determinants outside the YVDD motif of MLV RT confer a high level of resistance to 3TC. Therefore, structural differences among similar RTs might result in widely divergent sensitivities to antiretroviral nucleoside analogs.
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PMID:Wild-type and YMDD mutant murine leukemia virus reverse transcriptases are resistant to 2',3'-dideoxy-3'-thiacytidine. 1086 83

A murine leukemia cell line was identified that is highly resistant to methotrexate (MTX), due to impaired transport, but fully sensitive to 5,10-dideazatetrahydrofolate (DDATHF). A valine-to-methionine substitution at amino acid 104 in the reduced folate carrier (RFC1) explains this disparity in drug resistance. Transfection of the V104M cDNA into an RFC1-deficient cell line markedly increased DDATHF influx (32x) but only modestly increased influx of MTX and 5-formyltetrahydrofolate (4- and 6-fold, respectively). The growth inhibition or growth requirements for these folates fell by factors of 18, 2, and 4, respectively, in the transfectant. Preservation of DDATHF influx in cells with V104M RFC1 resulted in even greater preservation (60%) of the exchangeable drug level. Another major element in the preservation of DDATHF activity was the impact of the mutated carrier on cellular folate pools. For folic acid, folate pools were essentially unchanged but DDATHF polyglutamate levels decreased in lines that express the V104M carrier. However, with 5-formyltetrahydrofolate as the growth source, there was a marked decrease in folate pools in the lines carrying the mutated carrier, and DDATHF polyglutamate levels were unchanged. Hence, DDATHF activity was preserved in cells with V104M RFC1 due to (a) relative conservation of DDATHF transport, and (b) depletion of cellular THF cofactors with diminishing folate cofactor competition at folylpolyglutamate synthetase and possibly glycinamide ribonucleotide formyltransferase. Hence, resistance to one antifolate, in this case MTX, because of a loss of RFC1 transport activity need not exclude the subsequent utility of another antifolate that uses the same carrier.
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PMID:Sensitivity to 5,10-dideazatetrahydrofolate is fully conserved in a murine leukemia cell line highly resistant to methotrexate due to impaired transport mediated by the reduced folate carrier. 1095 17

Several studies have indicated that the genetic diversity of human T-cell leukemia virus type 1 (HTLV-1), a virus associated with adult T-cell leukemia, is significantly lower than that of other retroviruses, including that of human immunodeficiency virus type 1 (HIV-1). To test whether HTLV-1 variation is lower than other retroviruses, a tractable vector system has been developed to measure reverse transcription accuracy in one round of HTLV-1 replication. This system consists of a HTLV-1 vector that contains a cassette with the neomycin phosphotransferase (neo) gene, a bacterial origin of DNA replication, and the lacZalpha peptide gene region (the mutational target). The vector was replicated by trans-complementation with helper plasmids. The in vivo mutation rate for HTLV-1 was determined to be 7 x 10(-6) mutations per target base pair per replication cycle. The majority of the mutations identified were base substitution mutations, namely, G-to-A and C-to-T transitions, frameshift mutations, and deletion mutations. Mutation of the methionine residue in the conserved YMDD motif of the HTLV-1 reverse transcriptase to either alanine or valine (i.e., M188A or M188V) led to a factor of two increase in the rate of mutation, indicating the role of this motif in enzyme accuracy. The HTLV-1 in vivo mutation rate is comparable to that of bovine leukemia virus (BLV), another member of the HTLV/BLV genus of retroviruses, and is about fourfold lower than that of HIV-1. These observations indicate that while the mutation rate of HTLV-1 is significantly lower than HIV-1, this lower rate alone would not explain the low diversity in HTLV-1 isolates, supporting the hypothesis that HTLV-1 replicates primarily as a provirus during cellular DNA replication rather than as a virus via reverse transcription.
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PMID:In vivo analysis of human T-cell leukemia virus type 1 reverse transcription accuracy. 1100 Feb 22

An excellent anti-leukemia activity has been found in a group of actinomycin D analogues derivatized at the 2,2'- or 5,5'-position of the depsipeptides. On the basis of the water solubilities, the DNA binding affinities, the RNA synthesis inhibitory activities, the anticancer activities of actinomycin D (AMD), and the crystal structures of DNA-AMD complexes, it becomes clear that AMD is extremely well designed as an effective poison produced by micro-organisms. The anticancer activity of AMD is mainly due to its selective inhibition of RNA synthesis. We have hypothesized that a modification on the AMD structure at a site not involved in DNA interaction can either increase or decrease the diffusion rate of the analogue into certain cancer cells. Since the i-propyl groups of the D-valine residues at the 2,2'-positions and N-methyl-L-valine residues at the 5,5'-positions in the depsipeptides do not participate in interaction with DNA, these amino acid residues were replaced with other D-amino acid residues and N-methyl-L-amino acid residues, respectively. The cancer screen tests have indicated that AMD analogues 2,2'-D-PheAMD, 2,2'-D-OmeAMD, 5,5'-L-TyrAMD, 5,5'-D-ValAMD, 5,5'-D-TyrAMD, 5,5'-D-PheAMD, and 5,5'-D-OmeAMD, inhibit selectively the growth of leukemia cell lines at about 100- to 500-fold lower drug concentrations than those required to inhibit other cancer cell lines.
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PMID:Anti-leukemia selectivity in actinomycin analogues. 1131 Jun 7

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