UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
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In a variety of adult and childhood leukaemia cell samples collected at different states of the disease, we analysed in a series of sequentially performed slot-blot or Northern-blot hybridisation experiments the expression of genes possibly involved in multiple drug resistance (MDR) (mdr1/P-glycoprotein, DNA topoisomerase II, glutathione-S-transferase pi), and the expression of the DNA topoisomerase I and histone 3.1 genes. Occasionally, P-glycoprotein gene expression was additionally examined by indirect immunocytofluorescence using the monoclonal antibody C219. No significant difference in mdr1/P-glycoprotein mRNA levels between primary and relapsed state acute lymphocytic leukaemias (ALL) was seen on average. Second or third relapses, however, showed a distinct tendency to an elevated expression of this multidrug transporter gene (up to 10-fold) in part well beyond the value seen in the moderately cross-resistant T-lymphoblastoid CCRF-CEM subline CCRF VCR 100. Increased mdr1/P-glycoprotein mRNA levels were also found in relapsed state acute myelogenous leukaemias (AML), and in chronic lymphocytic leukaemias (CLL) treated with chlorambucil and/or prednisone for several years. Topoisomerase I and topoisomerase II mRNA levels were found to be very variable. Whereas in all but one case of CLL topoisomerase II mRNA was not detected by slot-blot hybridizations, strong topoisomerase I and topoisomerase II gene expression levels, frequently exceeding the levels monitored in the CCRF-CEM cell line, were seen in many cell samples of acute leukaemia. If topoisomerase II mRNA was undetectable, expression of topoisomerase I was clearly visible throughout. These observations might be valuable considering the possible treatment with specific topoisomerase I or topoisomerase II inhibitors. Significant positive correlations were found (i) for topoisomerase I and histone 3.1 gene expression levels in general (P less than 0.001), and (ii) in the CLL samples additionally for the expression levels of the mdr1 gene, and the histone 3.1, topoisomerase I, and glutathione-S-transferase pi genes, respectively.
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PMID:Mdr1/P-glycoprotein, topoisomerase, and glutathione-S-transferase pi gene expression in primary and relapsed state adult and childhood leukaemias. 135 60

Patients with the autosomal recessive disorder Fanconi anemia (FA) present with progressive pancytopenia, skeletal abnormalities and a predisposition to leukemia. In addition to elevated rates of spontaneous chromosome aberrations occurring in cultured fibroblasts and lymphoblastoid cell lines, an increased susceptibility to DNA cross-linking agents and oxygen has been found. To explain this hypersensitivity to clastogenic agents a defective function of DNA topoisomerase I or II could be invoked, a suggestion which is supported by the co-localization of the DNA topoisomerase I gene and a putative FA gene to chromosome 20q. In order to investigate the function of DNA topoisomerases in FA, the sensitivity of lymphoid B-cell lines derived from FA patients and control cell lines to inhibitors of DNA topoisomerases I and II was compared using continuous bromodeoxyuridine labeling and bivariate Hoechst/ethidium bromide flow cytometry. Both agents inhibited cell proliferation mainly by arresting cells in the G2 phase of the cell cycle. However, no difference was found in sensitivity towards both DNA topoisomerase inhibitors between control and FA cell lines.
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PMID:Cell cycle effects of the DNA topoisomerase inhibitors camptothecin and m-AMSA in lymphoblastoid cell lines from patients with Fanconi anemia. 138 35

We have studied the effect of the DNA topoisomerase I inhibitor camptothecin on growth, differentiation, and gene expression in U-937 human promonocytic leukemia cells. At a concentration of 20 nM, camptothecin caused significant DNA strand breakage and decreased the growth activity by accumulating cells preferentially at the G2 phase of the cycle. The growth arrest occurred concomitantly with an increase in cell size. Under those conditions, camptothecin induced differentiation, as demonstrated by (a) the capacity of the cells to generate reactive oxygen species, (b) the increase in the surface expression of the leukocyte integrins CD11b/CD18 and CD11c/CD18, (c) the increase in the cellular content of the intermediate filament protein vimentin, and (d) the decrease in the surface expression of the transferrin receptor. Camptothecin also induced the expression of differentiation markers in other human myeloid cells, namely, the promonocytic THP-1 and the myelomonocytic HL-60 cell lines. Northern blot assays revealed that camptothecin stimulated the expression of CD11b, CD11c, and vimentin at the mRNA level. Moreover, the drug increased the transcription rate of the vimentin gene, as shown by "run-on" transcription assays.
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PMID:Camptothecin induces differentiation and stimulates the expression of differentiation-related genes in U-937 human promonocytic leukemia cells. 173 86

Camptothecin (CPT), a plant alkaloid with antitumor activity, is a specific inhibitor of eukaryotic DNA topoisomerase I. We have previously isolated and characterized a CPT-resistant topoisomerase I isolated from a CPT-resistant human leukemia cell line, CPT-K5. cDNA clones of topoisomerase I were isolated from the CPT-resistant and the parental CPT-sensitive cell lines, respectively. Sequencing of the clones identified two mutations in the cDNA isolated from the resistant cells, which cause amino acid changes from aspartic acid to glycine at residues 533 and 583 of the parental topoisomerase I. When the CPT-K5 topoisomerase I was expressed in E. coli as a fusion protein with Staphylococcal Protein A fragment, the activity was resistant to CPT at a dose level up to 125 microM, whereas the parental fusion protein was sensitive to CPT as low as 1 microM. The resistance index (greater than 125) of the CPT-K5 fusion topoisomerase I is similar to that of the native CPT-K5 topoisomerase I. These results indicate that either or both of the two amino acid changes identified in the mutant enzyme is responsible for the resistance to CPT.
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PMID:Molecular cloning of a cDNA of a camptothecin-resistant human DNA topoisomerase I and identification of mutation sites. 184 60

Short-term (2-6 h) exposure of human promyelocytic HL-60 cell cultures to the DNA topoisomerase I inhibitor camptothecin (0.05-0.5 microgram/ml) or to the topoisomerase II inhibitor, teniposide (VM-26; 0.3-3.0 micrograms/ml) or 4'-(9-acridinylamino)methanesulfon-m-anisidide (amsacrine; 0.8 microgram/ml) triggered rapid degradation of DNA specifically in S-phase cells. As a result of the selective death of S-phase cells, only G1 cells remained in these cultures. On the other hand, mitoxantrone (0.02-0.4 microgram/ml) or doxorubicin (adriamycin; 0.4-10.0 micrograms/ml) did not induce DNA degradation in S phase but arrested HL-60 cells in S and G2 phases. In contrast to HL-60 cells, human lymphocytic leukemic MOLT-4 cells responded to all of these drugs (camptothecin, teniposide, amsacrine, mitoxantrone, and adriamycin) at all concentrations tested, invariably by being arrested in G2 and S phases and also by entering a higher DNA ploidy cycle. The data illustrate the differences in the sensitivity of S-phase cells in myelogenous versus lymphocytic leukemic lines to both DNA topoisomerase I and II inhibitors and emphasize the tissue (leukemia type)-specific factors that modulate the cytostatic and cytotoxic effects of these inhibitors. The qualitatively different response of HL-60 cells to camptothecin, teniposide, or amsacrine (by rapidly triggered DNA degradation in S phase) as compared to mitoxantrone or adriamycin (by cell arrest in G2 and S) suggests that, despite the generally assumed common mode of action attributed to these drugs (i.e., via stabilization of the cleavable DNA-topoisomerase complexes), there are significant differences in the mechanisms by which they exert cytostatic/cytotoxic effects.
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PMID:Camptothecin, teniposide, or 4'-(9-acridinylamino)-3-methanesulfon-m-anisidide, but not mitoxantrone or doxorubicin, induces degradation of nuclear DNA in the S phase of HL-60 cells. 199 59

Benzisoquinolinedione (nafidimide; NSC 308847) is an investigational drug currently in phase I clinical testing. We have studied the antileukemic activity in vitro, the cellular drug transport, and the molecular mechanism of action with DNA of this new compound. By agarose gel electrophoresis, we verified that nafidimide is an intercalating agent, through its alteration of the electrophoretic migration of DNA products produced by the relaxing action of DNA topoisomerase I. Concentrations of up to 100 microM of nafidimide did not produce topoisomerase I-mediated DNA cleavage. Nafidimide produced DNA single-strand breaks (SSB), double-strand breaks, and DNA-protein cross-links in human myeloid leukemia cells (measured with filter elution). The ratio of SSB/DNA-protein cross-links was 1.32 +/- 0.36, a value similar to that produced by 4'-(9-acridinylamino)methanesulfon-m-anisidide (m-AMSA), suggesting that nafidimide, like m-AMSA, produced protein-associated DNA-strand breaks through a topoisomerase II-mediated reaction. The production of double-strand breaks by nafidimide also suggests the involvement of topoisomerase II in the drug-induced DNA cleavage. The cytotoxic activity of nafidimide was quantified in human myeloid leukemia cell lines differing by a factor of 70 in their cytotoxic sensitivity to m-AMSA. The m-AMSA-resistant line was less than 2-fold resistant to nafidimide. Cellular drug uptake was rapid and reached a steady state level in 30 min at 37 degrees C. At the end of exposure, drug egress was rapid, as was the disappearance of the DNA SSB. Rapid cellular uptake of nafidimide, with low retention at the end of exposure and rapid rejoining of DNA SSB suggest that prolonged cellular exposure may be necessary for optimal antitumor effect. In vitro cloning data suggest that nafidimide may be a therapeutic option for patients with leukemia resistant to m-AMSA.
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PMID:In vitro toxicity and DNA cleaving capacity of benzisoquinolinedione (nafidimide; NSC 308847) in human leukemia. 302 21

It has been reported that human promyelocytic leukemic HL-60 cells which undergo differentiation fail to respond by apoptosis when treated with antitumor drugs, predominantly DNA topoisomerase inhibitors. Because S phase cells are selectively sensitive to these drugs, and during differentiation there is a reduction in the proportion of cells in S phase, the reported decrease in the number of apoptotic cells could simply be a reflection of the paucity of sensitive cells in these cultures. Using cytometric methods which allow apoptosis to be related to cell cycle position, we have compared the apoptotic response of HL-60 cells growing exponentially and induced to myeloid differentiation by dimethyl sulfoxide (DMSO). The cells were treated with: (i) the DNA topoisomerase I inhibitor camptothecin (CAM), which selectively triggers apoptosis or S phase cells; (ii) the nucleoside antimetabolite 5-azacytidine (AZC) and hyperthermia, both of which preferentially affects G1 cells; and (iii) gamma radiation, which causes apoptosis predominantly of G2 + M cells. The cells exposed to 1.4% DMSO for 24 or 48 h were significantly more resistant to response by apoptosis, regardless of the nature of the agent and regardless of their position in the cell cycle. Thus, induction of differentiation lowers the cell's ability to respond to a variety of damaging agents by apoptosis and this effect is not correlated with cell cycle position. In addition, the difference in response was unrelated to expression of the apoptosis-modulating protein bcl-2, which appeared unchanged following 48 h exposure to DMSO. On the other hand, when the cells were pretreated with low concentrations of CAM or AZC, washed free of drug, and then treated with DMSO, the proportion of cells undergoing apoptosis was markedly increased, relative to drug-treated cells returned to DMSO-free medium. The present data may indicate that while the drug-induced damage screening mechanisms, which are linked to triggering apoptosis, may be more proficient in proliferating cells, the effectors of apoptosis are more expressed in cells undergoing differentiation. The data also suggest that the efficiency of chemotherapeutic agents or radiation may be reduced if a differentiating agent is used in combination therapy and is administered first. An enhancement of apoptosis, however, may be expected if the differentiating drug is administered in the reverse sequence.
Leukemia 1994 Feb
PMID:Altered susceptibility of differentiating HL-60 cells to apoptosis induced by antitumor drugs. 750 35

Two camptothecin-resistant variants of the CEM human leukemia cell line were developed by stepwise selection in camptothecin (CPT) in vitro. The two lines, named CEM/C1 and CEM/C2, were found to be approximately 31- and 970-fold less sensitive to CPT, respectively, than the CEM parental line and variably cross-resistant to the CPT analogs 9-amino-CPT, 10,11-methylenedioxy-CPT, and topotecan. Levels of DNA-protein complex formation resulting from cell exposure to CPT were found to be progressively reduced in the CPT-resistant cells, despite equivalent CPT accumulation in the drug-sensitive and -resistant cells. Nuclear extracts (1.0 M NaCl) prepared from the CEM/C1 and CEM/C2 lines contained 1.5- to 2-fold less DNA topoisomerase I catalytic activity per microgram of protein than did extracts from the drug-sensitive CEM line, in association with altered sensitivity of the enzyme in the CEM/C1 and CEM/C2 extracts to the inhibitory activity of CPT. Only minor differences were noted in the CPT IC50s for the topoisomerase I activity in extracts from the two CPT-resistant cell lines, however, despite the marked differences in cellular sensitivity to CPT. There were notable differences in the level of CPT-induced cleavage of DNA oligonucleotides by topoisomerase I in nuclear extracts from CEM cells compared with the drug-resistant cell extracts, with very little oligonucleotide cleavage induced by enzyme in either drug-resistant cell type, despite the use of very high (100 microM) CPT concentrations. The alterations in topoisomerase I catalytic activity were associated with reduced cellular levels of both immunoreactive topoisomerase I protein (representing 59 +/- 19% [CEM/C1] and 49 +/- 12% [CEM/C2] of that in CEM, respectively) and mRNA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Altered topoisomerase I expression in two subclones of human CEM leukemia selected for resistance to camptothecin. 757 31

A human HL-60 leukemia cell line selected for resistance to mitoxantrone, HL-60/MX2, displays cross-resistance only to agents whose cytotoxicities result from interaction with the nuclear enzyme DNA topoisomerase II (topo II). The topo II catalytic activity is reduced 2-fold in the drug-resistant cell line in association with the absence of the M(r) 180,000 isoform of topo II and the finding of novel M(r) 160,000 topo II alpha-related immunoreactive protein in these cells by immunoblot. The topo II alpha (M(r) 170,000) protein levels in nuclear extracts from the HL-60/MX2 cells were noted on average to be approximately 40% lower than in comparable HL-60 nuclei. Studies of the subcellular localization of topo II by immunohistochemical and fractional extraction techniques demonstrated that the M(r) 160,000 topo II alpha-related protein is primarily localized in the cytoplasm. Levels of the 6.3-kilobase topo II alpha mRNA were noted to be reduced 2-fold in the HL-60/MX2 cells in association with the finding of a novel 4.8-kilobase topo II alpha-related mRNA transcript that was present in HL-60/MX2 but not HL-60 cells. The absence of topo II beta protein in nuclear and whole cell extracts from the HL-60/MX2 cells was associated with the virtual absence of detectable topo II beta mRNA in those cells by Northern blot analysis. Using a reverse transcription-PCR assay we were able to demonstrate the presence of very low levels of topo II beta mRNA in HL-60/MX2 cells, representing < 1% of that found in the HL-60 cells. In contrast, the nuclear catalytic activity and cellular mRNA levels of the related nuclear enzyme DNA topoisomerase I were nearly identical in the two cell types. Southern blot analysis of DNA extracted from the drug-sensitive and drug-resistant cells revealed a structural alteration in one topo II alpha allele in the HL-60/MX2 cells, but there was no evidence of rearrangement or hypermethylation of the topo II beta locus. These results indicate that the reduced levels of topo II alpha and beta isoenzymes observed in mitoxantrone-resistant HL-60/MX2 cells are related to changes in the levels of their respective mRNA transcripts. The identification of structural changes in one topo II alpha allele in the HL-60/MX2 cell line suggests that the altered allele may serve as the source of the unique 4.8-kilobase topo II alpha-related mRNA transcript and the M(r) 160,000 protein discovered in those cells.
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PMID:Alterations in the topoisomerase II alpha gene, messenger RNA, and subcellular protein distribution as well as reduced expression of the DNA topoisomerase II beta enzyme in a mitoxantrone-resistant HL-60 human leukemia cell line. 771 79

Fluorescence digital imaging microscopy (FDIM) has been used to perform a cell cycle analysis of both the amount and the distribution of nuclear DNA topoisomerase I in individual CEM human leukemia cells. Cells were stained by indirect immunofluorescence methods using a polyclonal antiserum generated with a 21-amino-acid peptide representing amino acids 219-239 of human topoisomerase I. Immunohistochemical staining was followed by staining with Hoechst dye 33342, allowing DNA content to be determined in each cell. Cell cycle analysis showed that nuclear topoisomerase I content doubled (2.2-fold increase) as the cells progressed from G1 to G2/M phases of the cell cycle. However, when normalized for nuclear size, topoisomerase I content per nuclear area remained almost constant (1.3-fold increase). For comparison, we measured the amount of proliferating cell nuclear antigen (PCNA), a protein whose expression fluctuates during the cell cycle. Nuclear PCNA content increased 2.7-fold from G1 to S phase, then declined in G2/M- phases, whereas PCNA content per nuclear area increased 1.7-fold from G1 to S phase. We also measured topoisomerase I content in leucine-deprived cells to determine if altered growth conditions affect topoisomerase I protein expression. Compared to CEM cells in logarithmic growth, leucine-deprived CEM cells had 1.8-fold less topoisomerase I content per nuclear area. Subnuclear distribution studies of proliferating CEM cells showed topoisomerase I to be localized predominantly in the nucleoli throughout the cell cycle. In contrast, leucine-deprived cells exhibited a perinuclear distribution of topoisomerase I. Our results show that FDIM is a useful technique in determining the cell cycle position and both the content and the distribution of topoisomerase I as well as other nuclear proteins in individual cells.
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PMID:Cell cycle analysis of amount and distribution of nuclear DNA topoisomerase I as determined by fluorescence digital imaging microscopy. 774 94

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