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)

Oncogenic avian retroviruses can be classified into three groups: sarcoma viruses, acute leukaemia viruses and lymphoid leukosis viruses (LLVs). Sarcoma and acute leukaemia viruses transform fibroblasts and/or haematopoietic cells in culture and induce tumours with short latent periods in infected birds. In contrast, LLVs do not transform cells in vitro and require long latent periods before formation of neoplasms in vivo. The most frequent neoplasm induced by LLVs is malignant lymphoma of the bursa of Fabricius, but LLVs also induce other neoplasms, including sarcomas, nephroblastomas and erythroblastosis. The genomes of both sarcoma and acute leukaemai viruses contain specific genes responsible for viral oncogenicity, whereas the genome of LLVs apparently includes only genes required for virus replication. The genetic basis for the low oncogenic potential of LLVs is therefore obscure. The present experiments indicate that LLV-induced tumours contain transforming genes that can be detected by transfection of NH 3T3 mouse cells. These transforming genes are not linked to LLV DNA sequences, suggesting that oncogenesis by LLVs may result from indirect activation of cellular transforming genes.
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PMID:Transforming genes of neoplasms induced by avian lymphoid leukosis viruses. 625 8

The DNase I sensitivity of chromosomal DNA regions carrying integrated proviral genomes of Moloney (M-MuLV) and AKR Murine Leukemia Virus (AKR-MuLV), and the cellular homologue of the mos-gene (c-mos) of Moloney Sarcoma Virus (MSV) were studied in tumor tissues of leukemic mice. The genetically transmitted sequences of M-MuLV, AKR-MuLV, and the c-mos gene are all in DNase I resistant chromatin conformations in M-MuLV-induced tumors. Each M-MuLV-induced tumor contained at least one somatically acquired integrated recombinant MuLV genome that displayed two main characteristic features of active chromatin: a) a configuration hypersensitive to DNase I, and b) extensive hypomethylation. DNase I hypersensitive sites were mapped at the junction of cellular sequences and the 5'-viral large terminal repeat (LTR). Expression of a recombinant MuLV seems therefore to be a necessary feature to maintain the transformed state.
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PMID:Moloney murine leukemia virus-induced tumors: recombinant proviruses in active chromatin regions. 627 22

We have reported an antitumor aqueous extract from a brown marine alga Sargassum kjellmanianum ("Hahakimoku" in Japanese). Although the extract was effective in the in vivo growth inhibition of the implanted Sarcoma-180 cells, it was not effective against L-1210-bearing mice. In the present study, we attempted to obtain a polysaccharide fraction with antitumor activity against L-1210 leukemia from this alga, on the assumption that the main active substance may be sulfated polysaccharide, especially fucoidan which is mainly composed of L-fucose and ester sulfate. Two kinds of polysaccharide fractions (SKCF and SKCF-F), which contained L-fucose and ester sulfate in the amount of 12.6% and 15.4%, 23.5% and 17.2% respectively, were first prepared starting with extraction with cold-hydrochloric acid, and their antitumor activity was examined. It was found however that they are not effective. Sulfation of SKCF was then carried out. The resulting sulfate (Sulfated SKCF) was observed to contain nearly 50% more ester sulfate than in SKCF and to be effective against L-1210 leukemia showing an ILS value of 26%. Mechanisms of antitumor action of this sulfate were also discussed from the viewpoints of negativity of ester sulfate and of activation of host-mediated immune response as known in antitumor polysaccharide preparations from other sources.
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PMID:Antitumor effect of seaweeds. IV. Enhancement of antitumor activity by sulfation of a crude fucoidan fraction from Sargassum kjellmanianum. 651 98

Antitumor activity of twenty seven 6-alkyl disulfide derivatives of 6-mercaptopurine (6-MP) and 6-thioguanine (6-TG) were examined in the system of murine L-1210 leukemia. When given by intraperitoneal administration, maximum increase in life span produced by iso-pentyl (75%) and heptyl (68%) disulfides of 6-MP and sec-butyl (83%), pentyl (78%), and naphthyryl (90%) disulfides of 6-TG were higher than that of parent compounds (6-MP: 53%, 6-TG: 64%). Compounds with higher therapeutic ratio than respective parent compound were decyl and naphthyryl disulfide derivatives of 6-MP and almost all the derivatives of 6-TG tested (propyl, butyl, sec-butyl, tert-butyl, pentyl, hexyl, heptyl, octyl, decyl, benzyl, and naphthyryl disulfides of 6-TG). Among them, decyl derivatives of both 6-MP and 6-TG showed the highest therapeutic ratio as high as 50 and 48, while those of parent compounds were 6.2 and 5.0, respectively. The improvement of therapeutic effect by the modification to decyl disulfide of 6-MP was demonstrated inthe L-1210 system, but it was not found in the Sarcoma-180 system reported previously. By oral administration, these derivatives were active against the leukemia but they were not superior to the parent compounds.
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PMID:Antitumor activity of alkyldisulfide derivatives of 6 mercaptopurines against L-1210 leukemia. 720 May 18

The spin-labeled derivative of podophyllotoxin, N'-podophyllic acid-N-[3-(2,2,5,5-tetramethyl pyrrolinenyloxy)] semicarbazide (GP-11), was synthesized and tested for its antitumor activity against mouse transplantable tumors, Sarcoma-180, Hepatoma-A, P388 leukemia and Ehrlich ascites carcinoma. At an equitoxic dose, the antitumor activity of GP-11 was similar to that of etoposide (VP-16). However, the immunosuppressive effects of GP-11 were weaker than that of VP-16. In vitro, GP-11 and VP-16 inhibited the proliferation of human lymphoid leukemia Molt 4B cells and suppressed DNA and protein syntheses, but the effect of GP-11 and VP-16 on cell cycle progression was different. The mitotic index was increased by GP-11 and reduced by VP-16. On the basis of flow cytometric bromodeoxyuridine (BrdU)/DNA analysis, GP-11 and VP-16 resulted in the accumulation of cells in the S and G2/M phases. G2/M arrest by GP-11 on cell cycle progression was stronger than that of VP-16, while S arrest was weaker than that of VP-16. After the removal of drugs, the arrest by GP-11 and VP-16 still existed and was irreversible. These results may provide insights into the structure-activity relationships and the design of novel derivatives of podophyllotoxin useful in cancer chemotherapy.
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PMID:Antitumor activity of a new low immunosuppressive derivative of podophyllotoxin (GP-11) and its mechanisms. 851 13

The antitumour activity of Ixora coccinea L. (Rubiaceae) flowers was studied in comparison to intraperitoneally transplanted Dalton's lymphoma (ascitic and solid tumours) and Ehrlich ascites carcinoma (EAC) tumours in mice. Intraperitoneal administration of 200 mg/kg of the active fraction (AF) of the I. coccinea flower increased the life-span of DLA and EAC ascitic tumour-bearing mice by 113 and 68%, respectively. The AF showed less activity against solid tumours (DLA) as compared to ascitic tumours. The same active fraction showed 50% cytotoxicity to DLA, EAC and Sarcoma-180 (S-180) cells in vitro at concentrations of 18, 60 and 25 microg/ml, respectively. It was not toxic to normal lymphocytes, whereas it was toxic to transformed lymphocytes from leukaemic patients, acute lymphoblastic leukaemia (ALL) and chronic myelogenous leukaemia (CML) and K-562 suspension cell cultures. The AF inhibited tritiated thymidine incorporation in cellular DNA.
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PMID:Cytotoxic and antitumour principles from Ixora coccinea flowers. 975 Dec 74

The complete nucleotide sequence of the genome of Solid-type Reticulum cell Sarcoma 19-6 murine leukemia virus (SRS 19-6 MuLV) was determined. This virus was isolated in mainland China from laboratory mice that had been separated from western mice since the 1930s. The genome is 8,256 nucleotides in length and exhibits a genetic organization characteristic of replication competent MuLVs. Phylogenies constructed from reverse transcriptase (RT) domains showed that SRS 19-6 MuLV is closely related to other MuLV-related retroviruses; however, it has clearly diverged from previously isolated MuLVs. Comparative sequence analysis of the env sequences indicated that SRS 19-6 MuLV encodes a surface (SU) glycoprotein that is related to other ecotropic MuLVs in the VR-A and VR-B variable regions. However, SRS 19-6 MuLV env glycoprotein was distinct from all other MuLVs (ecotropic and non-ecotropic) in the proline-rich hypervariable region. No evidence for recombination with endogenous MuLV env sequences in generation of SRS 19-6 MuLV was observed. Comparisons of long terminal repeat (LTR) sequences revealed that the GV 1.4 molecular clone of Graffi MuLV contained 96% sequence identity to SRS 19-6 MuLV's LTR with 99% identity when comparisons were restricted to the U3 regions of the two viruses. The consensus enhancer binding motifs contained in the U3 regions of the two viruses were nearly identical. Nevertheless the two viruses have previously been shown to induce distinct patterns of disease. Comparisons between 196 and Graffi GV1.4 MuLVs may provide insights into the mechanisms of disease specificity induced by MuLVs.
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PMID:Molecular and phylogenetic analysis of SRS 19-6 murine leukemia virus. 1033 39

Integrated retroviral DNAs are flanked by a short duplication of target DNA whose size is virus specific and invariable. We have sequenced the junctions between an ALSV (Avian Leukemia and Sarcoma Viruses)-based vector and quail DNA from five individual proviruses. Three proviruses were flanked by the expected 6-bp duplication of host DNA, whereas the two others were flanked by a 5-bp duplication. Nucleotide sequencing of the native integration sites of these two proviruses showed that these integrations had occurred at the immediate vicinity of either a CA or a TG dinucleotide, revealing striking microhomologies between the integration sites and viral LTR ends. These results suggest that size duplication of the target DNA might be influenced by nucleotidic sequence at the site of integration.
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PMID:In vivo retroviral integration: fidelity to size of the host DNA duplication might Be reduced when integration occurs near sequences homologous to LTR ends. 1111 89

The ability to transfer permanently genes into mammalian cells makes retroviruses suitable vectors for the ultimate purpose of treating inherited genetic disease. However, expression of the retrovirally transferred genes is variable (position effect and expression variegation) because retroviruses are highly susceptible to the influence of the host genome sequences which flank the integration site. We have investigated this phenomenon with respect to the human housekeeping enzyme, glucose 6-phosphate dehydrogenase (hG6PD). We have constructed retroviral vectors in which the hG6PD cDNA is driven by either of two conventional retroviral promoters and enhancers from the Moloney Murine Leukemia Virus (MMLV) and the Myeloproliferative Sarcoma Virus (MPSV) long terminal repeats (LTR) or by the hG6PD own promoter replacing most of enhancer and promoter LTR (GRU5). We have compared the activity of retrovirally transferred hG6PD driven by these promoters after retroviral integration in bulk cultures and in individual clones of murine fibroblasts. The level of hG6PD expressed by the hG6PD promoter of GRU5-G6PD was significantly lower than that expressed by conventional retroviral vectors. However, analysis of the single copy clones showed less variation of expression with GRU5-G6PD (coefficient of variation, CV, 35.5%) than with conventional vectors (CV, 58.9%). Thus we have several vectors competent for reliable transfer and expression of hG6PD. The hG6PD promoter provides reproducible expression of hG6PD and limits the variability of expression. This decreased variability is important in order to help ensuring a consistent level of delivery of the needed gene product in future therapeutic protocols.
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PMID:Glucose 6-phosphate dehydrogenase expression is less prone to variegation when driven by its own promoter. 1131 49

During replicative cycle of retroviruses, the reverse-transcribed viral DNA is integrated into the cell DNA by the viral integrase (IN) enzyme. The central core domain of IN contains the catalytic site of the enzyme and is involved in binding viral ends and cell DNA as well as dimerization. We previously performed single amino acid substitutions in the core domain of an Avian Leukemia and Sarcoma Virus (ALSV) IN [Arch. Virol. 147 (2002) 1761]. Here, we modeled the resulting IN mutants and analyzed the ability of these mutants to mediate concerted DNA integration in an in vitro assay, and to form dimers by protein-protein cross-linking and size exclusion chromatography. The N197C mutation resulted in the inability of the mutant to perform concerted integration that was concomitant with a loss of IN dimerization. Surprisingly, mutations Q102G and A106V at the dimer interface resulted in mutants with higher efficiencies than the wild-type IN in performing two-ended concerted integration of viral DNA ends. The G139D and A195V mutants had a trend to perform one-ended DNA integration of viral ends instead of two-ended integration. More drastically, the I88L and L135G mutants preferentially mediated nonconcerted DNA integration although the proteins form dimers. Therefore, these mutations may alter the formation of IN complexes of higher molecular size than a dimer that would be required for concerted integration. This study points to the important role of core domain residues in the concerted integration of viral DNA ends as well as in the oligomerization of the enzyme.
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PMID:Mutational analyses of the core domain of Avian Leukemia and Sarcoma Viruses integrase: critical residues for concerted integration and multimerization. 1497 25

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