UMLS:C0023418 - FACTA Search

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)

The polymerase chain reaction with prior reverse transcription of RNA into cDNA was applied to hepatitis C virus RNA detection in human serum samples of different origin. In order to eliminate false negative results, the following steps were optimized: RNA extraction, reverse transcription, and oligonucleotide primer selection. We compared different RNA extraction methods using guanidinium salt/detergent and proteinase K digestion/phenol extraction, and tested virus particle enrichment with polyethylene glycol precipitation and ultracentrifugation. RNA extraction with guanidinium salt/detergent was the most efficient method. Ultracentrifugation of single samples did not improve hepatitis C virus RNA detection. Polyethylene glycol precipitation performed poorly. Recombinant thermostable reverse transcriptase produced cDNA from fewer samples than did Moloney murine leukaemia virus reverse transcriptase. Nested oligonucleotide primers from the 5'-terminal non-coding region of the hepatitis C virus genome amplified cDNA from more samples than did primers from the coding regions. Thirty six anti-hepatitis C virus antibody positive samples were tested; nested primers (nucleotides 6 to 327 and 15 to 288) yielded 21 amplificates, whereas primers from the coding region produced 16 amplificates (nucleotides 4684-5276) and 5 amplificates (nucleotides 5166-5270), respectively. The most efficient combination of steps was RNA extraction with guanidinium salt solution, reverse transcription with Moloney murine leukaemia virus reverse transcriptase and nested polymerase chain reaction primed with primers from the 5'-terminal non-coding region of the hepatitis C virus genome. Other combinations produced more false negative results. Three different groups of anti-hepatitis C virus antibody positive individuals had markedly different viraemia patterns: Hepatitis C virus RNA was detected in the sera of only 10% of anti-hepatitis C virus antibody positive blood donors, but in 90% of anti-hepatitis C virus antibody positive patients with clinically manifest hepatitis C, and 90% of anti-hepatitis C virus antibody positive haemophiliacs who had received plasma products in the past which had not been virus-inactivated. No hepatitis C virus RNA could be detected in the sera of 450 anti-hepatitis C virus antibody negative blood donors with elevated serum alanine aminotransferase catalytic concentrations.
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PMID:Improved detection of hepatitis C virus RNA by reverse transcription and polymerase chain reaction. 128 41

Novel derivatives of K-252a, (8R*,9S*,11S*)-(-)-9-hydroxy-9-methoxycarbonyl- 8-methyl-2,3,9,10-tetrahydro-8,11-epoxy-1H,8H,11H-2,7b,11a-triazadibe nzo[a,g]-cycloocta[cde]trinden-1-one, an inhibitor of protein kinases and calmodulin-dependent phosphodiesterase, were synthesized and evaluated for their antitumor activity in vitro and in vivo. Of ten derivatives tested, four were active against the P388 murine leukemia i.p.-i.p. system, although K-252a was inactive. Among these derivatives, KT6124 was selected for further biological evaluation studies because its efficacy was the highest. KT6124 was also active against sarcoma 180 and B16 melanoma. It exerted a relatively broad spectrum of antiproliferative activity against 20 human tumor cell lines in vitro. To determine the mechanism(s) of action underlying the antitumor activity of KT6124, we tested the drug for inhibition of protein kinases, including Ca(2+)- and phospholipid-dependent protein kinase (PKC), in intact A431 human epidermoid carcinoma cells in comparison with the PKC-inhibitory activity of K-252a. KT6124 did not antagonize the action of phorbol 12-myristate 13-acetate (PMA) in A431 cells, whereas K-252a did, suggesting that KT6124 may not act on protein kinases in the cells. The interaction of KT6124 with DNA in living cells was examined by the alkaline elution method. KT6124 apparently exhibited DNA scission both dose- and time-dependently in the target cells. The DNA breakage was dependent on proteinase K treatment, suggesting its possible interaction with DNA-related enzyme(s). These results indicate that KT6124 exerts antitumor activity by acting on DNA or on DNA-related enzyme(s) in tumor cells rather than via the inhibition of protein kinases.
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PMID:Antitumor effect of KT6124, a novel derivative of protein kinase inhibitor K-252a, and its mechanism of action. 153 71

Benzamide (BA) enhances the cytotoxicity of 1,2:5,6-dianhydrogalactitol (DAG) in resistant P388 leukemia cell lines but not in the sensitive parent line. To examine the reason for this difference in response, we carried out an alkaline elution assay using proteinase K to study DNA interstrand cross-linking. At early time points, equal concentrations of DAG produced the same level of interstrand cross-linking (ICL) in the resistant and sensitive P388 leukemic cells, although marked differences were observed in their cytotoxicity toward the two cell lines. In the sensitive cells, neither the amount of DNA cross-linking nor the cytotoxicity changed during the observation period (38 h) in either the presence or the absence of BA. In contrast, the elution rate of the DNA of DAG-treated resistant cells increased with time and had reached the control levels by 38 h. However, when these cells were postincubated with BA for 38 h, the elution rate of DNA was much faster than that observed for the untreated resistant cells, indicating an accumulation of DNA single-strand breaks (SSB). The SSB accumulation caused by BA was associated with an inhibition of the activity of ligase II enzyme, which was stimulated when resistant cells were treated with DAG alone. The potentiating effect of BA on the resistant cells can thus be related to the inhibiting action of BA on the DNA-rejoining enzyme, ligase II. The lack of sensitization by BA of the DAG-treated parent cell line may be attributable to the absence of DNA-SSB formation, which is necessary for ligase II activation through the stimulation of poly(ADP-ribose) synthesis.
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PMID:Benzamide potentiation of the cytotoxicity of bifunctional galactitol [correction of galacticol] in resistant P388 leukemia correlates with inhibition of DNA ligase II. 164 2

A simple, sensitive, and specific polymerase chain reaction (PCR) protocol for the detection of human immunodeficiency virus type 1 (HIV-1) is described. We have improved all three PCR steps: sample preparation, DNA amplification, and detection of the amplified product. Some of the improvements have been described previously, but they have never been combined into a complete PCR protocol. Peripheral blood mononuclear cells were lysed directly in a buffer containing sodium dodecyl sulfate, Triton X-100, and proteinase K. This crude cell lysate was amplified in a two-step PCR, first with outer primers and then with inner primers nested within the first primers. The PCR product was visualized by agarose gel electrophoresis and ethidium bromide staining. Thus, we avoided conventional DNA extraction as well as hybridization for the detection of the PCR product. The samples were analyzed with four sets of nested primers (JA4 through JA7, JA9 through JA12, JA13 through JA16, and JA17 through JA20) designed to amplify HIV-1 gag, env gp120, env gp41, and pol sequences, respectively. We were able to amplify HIV-1 sequences in all samples from 90 HIV-1-seropositive individuals with mostly mild symptoms. Of these individuals, 24 were negative in HIV-1 isolation and 9 were selected because they were infected by African and Haitian HIV-1 strains. Eighty-five (94%) individuals were positive with at least three of four primer sets. Samples from 26 healthy blood donors, as well as cells infected in vitro with human immunodeficiency virus type 2 and human T-cell leukemia virus type I, were negative in PCR, thus demonstrating the specificity of the amplification.
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PMID:Simple, sensitive, and specific detection of human immunodeficiency virus type 1 in clinical specimens by polymerase chain reaction with nested primers. 238 Mar 80

An endonuclease activity associated with purified proteinase K-treated intracisternal A-particles was identified and characterized. The activity required divalent cations, preferring Mn2+ to Mg2+. Salt concentrations above 50 mM inhibited the activity. The endonuclease was greatly stimulated by ATP, ADP, and dATP, whereas AMP appeared to produce a slight inhibition. GTP had no apparent effect on the activity. The enzyme introduced single-stranded nicks into DNA and nicked preferentially supercoiled DNA duplexes in the presence of ATP, although linear duplexes also functioned as substrates. Single-stranded DNA was not nicked to any great extent. The molecular weight of the enzyme was estimated to be about 40,000. The characteristics of this enzyme are very similar to those of the endonuclease found associated with Friend murine leukemia virus.
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PMID:Properties of an intracisternal A-particle-associated endonuclease activity which is stimulated by ATP. 627 25

2-Chloro-2'-deoxyadenosine (cladribine), an analog of deoxyadenosine, is an important new drug for the treatment of hairy cell leukemia and other forms of adult and pediatric leukemia. By a gel-shift binding assay, we identified an activity in HeLa nuclear extracts that recognizes and binds to oligonucleotides substituted with 2-chloroadenine (ClAde). The activity was specific for ClAde residues because control oligomers did not readily compete out the complex. The binding factor was a monomeric protein that was resistant to inactivation by heating at 45 degrees C but sensitive to heating at 65 degrees C, proteinase K treatment, and 5 mM ZnCl2. This protein, designated ClAde recognition protein (CARP), appeared to be related to a protein that recognized other forms of DNA damage. Gel-shift binding reactions with ultraviolet (UV)-irradiated oligomers revealed a UV-specific protein/DNA complex that had an electrophoretic mobility similar to that of the CARP/DNA complex, and CARP binding to ClAde-containing oligomers was readily competed out by UV-irradiated DNA. Moreover, CARP activity was present in extracts prepared from UV-sensitive xeroderma pigmentosum group A cells but not in a subset of cells from group E, suggesting that CARP was similar to a previously described repair associated factor, xeroderma pigmentosum-E binding factor. Our findings support a possible repair process for ClAde residues incorporated into cellular DNA.
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PMID:A human factor that recognizes DNA substituted with 2-chloroadenine, an antileukemic purine analog. 764 63

We studied the role of proteases in apoptosis using a cell-free system prepared from a human leukemia cell line. HL60 cells are p53 null and extremely sensitive to a variety of apoptotic stimuli including DNA damage induced by the topoisomerase I inhibitor, camptothecin. We measured DNA fragmentation induced in isolated nuclei by cytosolic extracts using a filter elution assay. Cytosol from camptothecin-treated HL60 cells induced internucleosomal DNA fragmentation in nuclei from untreated cells. This fragmentation was suppressed by serine protease inhibitors. Serine proteases (trypsin, endoproteinase Glu-C, chymotrypsin A, and proteinase K) and papain by themselves induced DNA fragmentation in naive nuclei. This effect was enhanced in the presence of cytosol from untreated cells. Cysteine protease inhibitors (E-64, leupeptin, Ac-YVAD-CHO [ICE inhibitor]) did not affect camptothecin-induced DNA fragmentation. The apopain/Yama inhibitor, Ac-DEVD-CHO, and the proteasome inhibitor, MG-132, were also inactive both in the cell-free system and in whole cells. Interleukin-1 beta converting enzyme (ICE) or human immunodeficiency virus protease failed to induce DNA fragmentation in naive nuclei. Together, these results suggest that DNA damage activates serine protease(s) which in turn activate(s) nuclear endonuclease(s) during apoptosis in HL60 cells.
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PMID:DNA fragmentation induced by protease activation in p53-null human leukemia HL60 cells undergoing apoptosis following treatment with the topoisomerase I inhibitor camptothecin: cell-free system studies. 880 33

Cleavage of cellular DNA into high molecular weight (predominantly 50 kb) fragments is an early event during apoptosis. We previously reported that this fragmentation was a Ca2+-independent process during apoptosis, which was induced by anticancer agents in human leukemia cells. The present study demonstrated that a high molecular weight DNA fragmentation activity (HDFA) was induced in the drug-treated cells and, upon fusion of the drug-treated cells with untreated target cells prelabeled with [14C]thymidine, caused fragmentation of the labeled DNA in the target cells. Furthermore, extracts of the drug-treated cells caused high molecular weight DNA fragmentation in nuclei isolated from untreated cells. Biochemical characterization of HDFA revealed the following properties: HDFA was proteinaceous in nature, as evidenced by its inactivation by heating or by digestion with proteinase K; HDFA required Mg2+ for optimal activity but was inhibited by Zn2+ and K+; HDFA was active in vitro at pH 6.0-8.0 and was inactive under more acidic conditions (pH < 6.0); addition of ATP (0.5-2 mM) substantially potentiated HDFA activity in isolated nuclei; and HDFA was not inhibited by actin (an inhibitor of DNase I) but was inhibited by the extracts from K562 cells, which were resistant to drug-induced apoptosis. The specific inhibitor of cysteine proteases (interleukin 1beta-converting enzyme protease family) blocked the generation of drug-induced high molecular weight DNA fragmentation in whole cells, whereas in isolated nuclei, the cysteine protease inhibitors did not prevent the cleavage of chromatin by exogenous HDFA. These results suggest that, once HDFA is activated during apoptosis, it does not require the presence of cysteine proteases for its endonucleolytic activity and that the cysteine proteases may be involved in the apoptotic process upstream of the activation of HDFA in whole cells.
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PMID:Biochemical characterization of the protein activity responsible for high molecular weight DNA fragmentation during drug-induced apoptosis. 927 6

We previously found that a human T-cell leukemia virus type I infected T-cell line, MT-2, was susceptible to hepatitis C virus (HCV) infection, and that cloned MT-2C cells could support HCV replication more persistently than the parental MT-2 cells. Recently we found that a non-neoplastic hepatocyte line, PH5CH, showed good susceptibility to HCV infection. In this study, we cloned PH5CH cells to obtain cells that supported more persistent HCV replication, and consequently three clones (PH5CH1, PH5CH7 and PH5CH8) in which intracellular HCV RNA could be detected at least 25 days postinoculation (p.i.) were obtained. Semi-quantitative analysis of HCV RNA indicated that HCV replicated in these cloned PH5CH cells was released into the culture medium. Semi-quantitative analysis of internalized HCV RNA after treatment of cloned PH5CH cells and parental PH5CH cells with proteinase K immediately after virus inoculation revealed that PH5CH1, PH5CH7 and PH5CH8 cells contained 10-fold higher levels of HCV RNA than low susceptible cloned PH5CH or parental PH5CH cells. Furthermore, we demonstrated that HCV replication was maintained for 70-100 days in these three clonal lines when the temperature of cell culture after virus inoculation was reduced from 37 to 32 degrees C. Moreover, we demonstrated that interferon alpha had antiviral effect on HCV-infected PH5CH8 cells. The three PH5CH clones obtained in this study will provide a useful tool for the study of HCV replication and proliferation, and for development of an assay system for antiviral agents.
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PMID:Human hepatocyte clonal cell lines that support persistent replication of hepatitis C virus. 978 64

Hydroxymethylacylfulvene (HMAF, MGI 114) is a novel antitumor drug and a potent pro-apoptotic agent that has the potential to alkylate cellular nucleophiles. The objective of these studies was to characterize drug uptake and cellular targets for drug binding in human leukemia CEM cells. The uptake of [14C]HMAF had two components: a rapid phase (0-10 min) and a slow phase. At 10 microM drug (37 degrees), the rapid and slower phase amounted to 0.86 and 0.13 pmol/min/10(6)cells, respectively. HMAF uptake was inhibited 82% by low temperature (4 degrees) at 4 hr. Cell-associated HMAF localized to nuclear (50%), cytoplasmic (37%), and membrane fractions (10%). Continued drug uptake appeared to be driven by covalent binding to cellular macromolecules. Approximately 1/4 and 2/3 of cell-associated HMAF formed covalent adducts after 10 min and 4 hr, respectively, as found by perchloric acid precipitation. Drug adducts were not readily reversible; 77% of the covalently bound radiolabel was retained by the cells 20 hr after drug treatment. Combinations of DNase, RNase, and proteinase K with perchloric acid precipitation showed that approximately 60, 30, and 10% of the covalently bound drug was associated with the protein, DNA, and RNA fractions, respectively. Incubation of 100 microM [14C]HMAF (24 hr) with purified DNA, serum albumin, thioredoxin, and thioredoxin reductase resulted in 6, 22, 14, and 11 pmol [14C]HMAF/microg DNA or protein, respectively. Results indicate that multiple targets for HMAF binding may contribute to the pro-apoptotic and antiproliferative action of the drug.
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PMID:Drug uptake and cellular targets of hydroxymethylacylfulvene (HMAF). 1042 61

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