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
Query: UMLS:C0023418 (
leukemia
)
93,477
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Studies were done to determine (a) the subcellular distribution of the alpha (170 kDa) and beta (180 kDa) isozymes of topoisomerase II, and (b) the extent to which each isozyme forms complexes with DNA in tumor cells incubated with and without VM-26. Western blotting revealed that topoisomerase II beta was highly unstable during cell fractionation. However, preincubation of human CEM
leukemia
cells with 5-100 microM VM-26 for 30 min protected the beta isozyme from degradation by progressively increasing the amount of this isoform bound to DNA. The amount of topoisomerase II beta detected in nuclei of CEM cells incubated for 30 min with 25 microM VM-26 was 7-fold greater than in nuclei from untreated control cells. VM-26 also had a protective effect on topoisomerase II beta in HL-60
leukemia
and WiDR colon carcinoma cells. In contrast, the intercalating agents mitoxantrone and m-AMSA did not protect topoisomerase II beta from degradation during cell fractionation. The stabilization of topoisomerase II beta by VM-26 allowed subsequent studies of the subcellular distribution of the topoisomerase II isozymes. Both isozymes were detected in the nonmatrix (high salt-soluble) fraction of nuclei from CEM cells, but only
topoisomerase II alpha
was present in the nuclear matrix. VM-26 stabilized binding of the alpha and beta topoisomerase II isoenzymes to nonmatrix DNA and
topoisomerase II alpha
to matrix DNA. The differences observed in the subnuclear distribution and DNA binding pattern of the topoisomerase II isozymes support the hypotheses that each isozyme has a distinct cellular function, and that both the alpha and beta isozymes are potential targets for VM-26 in intact cells. In addition, the results demonstrated that pretreatment of various cell lines with VM-26 is a useful way to stabilize topoisomerase II beta during cell fractionation.
...
PMID:Subcellular distribution of the alpha and beta topoisomerase II-DNA complexes stabilized by VM-26. 798 Jun 48
K562
leukaemia
cells were selected for resistance using 0.5 microM etoposide (VP-16). Cloned K/VP.5 cells were 30-fold resistant to growth inhibition by VP-16 and 5- to 13-fold resistant to m-AMSA, adriamycin and mitoxantrone. K/VP.5 cells did not overexpress P-glycoprotein; VP-16 accumulation was similar to that in K562 cells. VP-16-induced DNA damage was reduced in cells and nuclei from K/VP.5 cells compared with K562 cells. Topoisomerase II protein was reduced 3- to 7-fold and
topoisomerase II alpha
and topoisomerase II beta mRNAs were each reduced 3-fold in resistant cells. After drug removal, VP-16-induced DNA damage disappeared 1.7 times more rapidly and VP-16-induced DNA-topoisomerase II adducts dissociated 1.5 times more rapidly in K/VP.5 cells than in K562 cells. ATP (1 mM) was more effective in enhancing VP-16-induced DNA damage in nuclei isolated from sensitive cells than in nuclei from resistant cells. In addition, ATP (0.3-5 mM) stimulated VP-16-induced DNA-topoisomerase II adducts to a greater extent in K562 nuclei than in K/VP.5 nuclei. Taken together, these results indicate that resistance to VP-16 in a K562 subline is associated with a quantitative reduction in topoisomerase II protein and, in addition, a distinct qualitative alteration in topoisomerase II affecting the stability of drug-induced DNA-topoisomerase II complexes.
...
PMID:Altered stability of etoposide-induced topoisomerase II-DNA complexes in resistant human leukaemia K562 cells. 814 56
Topoisomerase II alpha (
topo II alpha
) mRNA was down-regulated to a greater extent in 2 human
leukemia
HL-60 cell lines sensitive to PMA-induced terminal differentiation than in their non-differentiating daughter lines following exposure to PMA (Cancer Res., 50: 7116-7122, 1990; Biochem. Pharmacol., in press). The sequence of the
topo II alpha
promoter (ATG upstream to -650) in all four cell lines was identical to that of a human lymphocyte genomic clone and to that of the previously published sequence from a human placenta clone (J. Biol. Chem., 267: 18961-18965, 1992). Putative transcriptional start sites were identical in one sensitive/resistant pair. In the other pair, a methylated site was identified between positions -242 and -580 within the -650 bp promoter region of the resistant daughter cell only. The identity of the sequence from all four cell lines indicates that mutations in the
topo II alpha
gene promoter of PMA-resistant cells cannot explain the absence of
topo II alpha
mRNA down-regulation following PMA treatment. Altered methylation patterns may, however, contribute to the reduced decrease in
topo II alpha
gene expression in one PMA-resistant line.
...
PMID:Molecular analysis of a potentially phorbol-regulatable region of the human topoisomerase II alpha gene promoter. 816 23
Previous studies using cloned lines of Adriamycin-sensitive and -resistant P388 murine
leukemia
cells have suggested that a reduction in DNA topoisomerase II alpha (
topo II alpha
) enzyme activity and protein levels in drug-resistant cell lines (A. M. Deffie, J. K. Batra, and G. J. Goldenberg, Cancer Res., 49: 58-62, 1989) may be due to an allelic mutation in the
topo II alpha
gene (A. M. Deffie, D. J. Bosman, and G. J. Goldenberg, Cancer Res., 49: 6879-6882, 1989). The drug-resistant cell lines P388/ADR/3 and P388/ADR/7 express a shortened
topo II alpha
mRNA transcript in addition to the native transcript present in the drug-sensitive P388/4 cell line. Using complementary DNA probes derived from the coding sequence and 3' untranslated region of the native mouse
topo II alpha
transcript, we have determined that the shorter 4.5-kilobase
topo II alpha
transcript expressed in the drug-resistant cell lines contains only 3.5-kilobases of topo II sequence from the 5'-terminus onwards. Using a 3'-rapid amplification of cDNA ends strategy, we have cloned cDNAs representing the 3'-termini of both the native and mutant transcripts from both P388/ADR/3 and P388/ADR/7 cells. DNA sequence analysis revealed that the shorter 4.5-kilobase transcript: (a) encodes
topoisomerase II alpha
until nucleotide position 3494, at which point the sequence diverges for the remaining 956 bases; (b) contains a polyadenylation signal distinct from the native transcript; and (c) contains an open reading frame predicting a truncated
topo II alpha
fusion protein. Of great interest was the finding that the non-
topo II alpha
956-base sequence in the shorter transcript encodes the promoter, exon I, and part of the first intron of the murine retinoic acid receptor alpha gene locus in the antisense orientation, suggesting that a rearrangement on chromosome 11 in the drug-resistant cells led to a gene fusion event between the loci encoding
topo II alpha
and retinoic acid receptor alpha.
...
PMID:Characterization of a DNA topoisomerase IIalpha gene rearrangement in adriamycin-resistant P388 leukemia: expression of a fusion messenger RNA transcript encoding topoisomerase IIalpha and the retinoic acid receptor alpha locus. 826 98
Sublines of K562 human
leukemia
cells were selected for resistance (30- to 80-fold) to etoposide by continuous exposure to 0.5 microM VP-16. Two etoposide-resistant cell lines, K/VP.5 and K/VP.5-1, showed a 5-fold reduction in levels of
topoisomerase II alpha
protein compared with K562 cells. Northern analysis indicated a 2.5-fold reduction in
topoisomerase II alpha
mRNA in etoposide-resistant cell lines, due in part to a 1.7-fold decrease in topoisomerase II mRNA stability with no change in transcription rate. Immunoblotting assays of electrophoresed cell lysates from VP-16-treated cells revealed less drug-induced covalent topoisomerase II/DNA adducts in resistant than in sensitive cells, suggesting a functional alteration in resistant cell topoisomerase II. Recent reports of specific topoisomerase II DNA binding sites near the promoter sites of growth response genes and alterations of gene expression in cells treated with topoisomerase II inhibitory drugs led to experiments to determine if the apparent functional alterations of topoisomerase II were accompanied by changes in the regulation of these genes. Therefore, the expression of several growth response genes was compared by northern analysis in parental K562 and both VP-16-resistant cell lines. Basal levels of c-myc were comparable for all three cell lines, but levels of c-jun and c-fos were elevated 2- to 4-fold in VP-16-resistant cell lines. Increased levels of c-fos and c-jun were not a result of altered rates of transcription, as determined by nuclear run-off assays. Exposure of both sensitive and resistant cells to 200 microM VP-16 for 5 hr resulted in no further changes in topoisomerase II mRNA levels but caused an additional 2- to 3-fold elevation in the level of c-jun mRNA, indicating that altered basal levels of this gene were not due to deregulation of this gene. Acquired VP-16 resistance in K/VP.5 and K/VP.5-1 cells was accompanied by reduced levels and altered activities of DNA topoisomerase II as well as changes affecting the expression of genes important for growth and differentiation.
...
PMID:Altered gene expression in human leukemia K562 cells selected for resistance to etoposide. 826 50
There is accumulating evidence that both type I and type II DNA-topoisomerases play a key role in cellular differentiation. Human HL-60
leukemia
cells can be induced to monocytic or granulocytic differentiation with various compounds; amongst them camptothecin, a topoisomerase I inhibitor and VP-16, VM-26 and mitoxantrone, all potent topoisomerase II inhibitors. During HL-60 cell differentiation topoisomerase I activity increases and topoisomerase II activity decreases. The two isoenzymes
topoisomerase II alpha
and topoisomerase II beta seem to have different physiological functions in highly proliferating cells, G0 cells and differentiated cells as their expression is regulated differently. In concentrations sublethal to undifferentiated cells, m-AMSA, also a potent topoisomerase II inhibitor, is able to prevent DMSO-induced granulocytic HL-60 cell differentiation. In drug-sensitive cells derived from several sources (mouse erythroleukemia, human gastric carcinoma, human
leukemia
), we found a functional heterogeneity of topoisomerase activity which is altered specifically during cellular differentiation. The isoactivities can be separated by their different pH and salt requirements and they exhibit different sensitivity to topoisomerase II inhibiting drugs. Functional heterogeneity of topoisomerases seems to be a prerequisite to high drug sensitivity of the cells, since drug-resistant sublines in our experiments do not exhibit this heterogeneity. We propose that the topoisomerase II inhibiting drugs which are able to induce differentiation, namely the epipodophyllotoxines VP-16 and VM-26, inhibit subfractions of the topoisomerase II pool which are necessary to maintain the undifferentiated status of the cells. These drugs induce differentiation in concentrations 10-100-fold below the lethal dose, the concentration must be sufficient to inhibit topoisomerase II but well below the concentration to induce the cleavable complex. This might be the reason that anthracyclines with a high DNA binding affinity have low differentiation-inducing capacity.
...
PMID:Correlation between the DNA-binding affinity of topoisomerase inhibiting drugs and their capacity to induce hematopoetic cell differentiation. 838 90
For investigation of relative differences in mRNA expression levels and of correlations in the expression of genes possibly involved in multidrug resistance (MDR) of acute myelogenous leukemias (AML), a complementary DNA polymerase chain reaction (cDNA-PCR) analysis was established for the genes encoding MDR1/P-glycoprotein, the multidrug resistance-associated protein (MRP),
topoisomerase II alpha
, topoisomerase II beta, topoisomerase I, glutathione S-transferase pi, protein kinase C (PKC) isozymes alpha, beta 1, beta 2, epsilon, eta, theta and cyclin A. In a first descriptive study comprising samples of childhood or adult AML we calculated the mean values from primary (n=14) or relapsed (n=23) states of the diseases, respectively. We found in the latter significant increases of MDR1, MRP, gst pi, and PKC theta gene expression. MDR1 and MRP gene expression levels were generally correlated (rs= +0.4128, P<0.02, n=37), as well as
topoisomerase II alpha
and cyclin A gene expression levels (rs= +0.8727, P<0.0001, n=35). Within the group of relapsed state AML a significant negative correlation between the gene expression levels of MDR1 and
topoisomerase II alpha
(rs= -0.5500, P<0.01, n=22) was observed. Remarkably, highly significant positive correlations were found for MDR1/PKC eta (rs= +0.5560, P<0.001, n=32), MRP/PKC theta (rs= +0.6573, P<0.0001, n=34) and MRP/PKC eta (rs= +0.5241, P<0.005, n=32).
Leukemia
1996 Mar
PMID:Expression of PKC isozyme and MDR-associated genes in primary and relapsed state AML. 864 57
We have developed a method to quantify topoisomerase (topo) II activities in partially purified nuclear extracts from human
leukemia
cells. By virtue of their different pH optima in the reaction buffer, two different topo II activities were found with activity optima at pH 7.9 and at pH 8.9 under high stringency conditions. The activities could be identified as topo II beta activity (pH 7.9) and
topo II alpha
activity (pH 8.9) by their different sensitivities to
topo II alpha
inhibitors, dephosphorylation experiments and immunoprecipitation with polyclonal antibodies. Seventy-two bone marrow or blood samples from patients with acute myeloid leukemias have been examined and their in vitro sensitivities to anthracyclines and epipodophyllotoxines correlated to the activities of
topo II alpha
and topo II beta. Although the
topo II alpha
activity could be directly inhibited by incubation of the cells with the mentioned drugs, no correlation between the
topo II alpha
activity and the sensitivity of the cells could be found. In contrast, the topo II beta activity which was not substantially inhibited by the drugs inversely correlated with the sensitivity of the cells. These findings were statistically significant for idarubicin (P=0.017) and daunorubicin (P=0.006). Vice versa, resistant cells (IC90 > median) had a higher topo II beta activity. Clinical relevance might be indicated by the finding that cells from patients that relapsed after initial treatment with anthracyclin-containing regiments had a significantly higher
topo II alpha
/beta activity ratio (P=0.0276). Obviously, the sensitivity of AML cells is substantially influenced by the activity of the resistant topo II (topo II beta) which gives evidence that the remaining topo II activity after treatment helps the cell to survive the DNA repair phase.
Leukemia
1996 Jul
PMID:Topoisomerase II activities in AML blasts and their correlation with cellular sensitivity to anthracyclines and epipodophyllotoxines. 865
We have developed a method to quantify topoisomerase (topo) II activities in partially purified nuclear extracts from human
leukemia
cells. By virtue of their different pH optima in the reaction buffer, two different topo II activities were found with activity optima at pH 7.9 and at pH 8.9 under high stringency conditions. The activities could be identified as topo II beta activity (pH 7.9) and
topo II alpha
activity (pH 8.9) by their different sensitivities to
topo II alpha
inhibitors, dephosphorylation experiments and immunoprecipitation with polyclonal antibodies. Seventy-two bone marrow or blood samples from patients with acute myeloid leukemias have been examined and their in vitro sensitivities to anthracyclines and epipodophyllotoxines correlated to the activities of
topo II alpha
and topo II beta. Although the
topo II alpha
activity could be directly inhibited by incubation of the cells with the mentioned drugs, no correlation between the
topo II alpha
activity and the sensitivity of the cells could be found. In contrast, the topo II beta activity which was not substantially inhibited by the drugs inversely correlated with the sensitivity of the cells. These findings were statistically significant for idarubicin (P= 0.017) and daunorubicin (P = 0.006). Vice versa, resistant cells (IC50 > median) had a higher topo II beta activity. Clinical relevance might be indicated by the finding that cells from patients that relapsed after initial treatment with anthracyclin-containing regiments had a significantly higher
topo II alpha
/beta activity ratio (P=0.0276). Obviously, the sensitivity of AML cells is substantially influenced by the activity of the resistant topo II (topo II beta) which gives evidence that the remaining topo II activity after treatment helps the cell to survive the DNA repair phase.
Leukemia
1996 Jul
PMID:Topoisomerase II activities in AML and their correlation with cellular sensitivity to anthracyclines and epipodophyllotoxines. 868 99
A fluorescence image cytometry technique was developed to measure the effects of topotecan, a topoisomerase I inhibitor, on the nuclear expression of
topoisomerase II alpha
in a series of patients with refractory or relapsed acute myeloid leukemia (AML). We used a commercially available affinity-purified rabbit polyclonal antibody and a fluorescein-conjugated secondary antibody. By using DAPI as a DNA counterstain and dual wavelength excitation, it was possible to measure enzyme expression in the cell nucleus, and to examine its cell cycle phase distribution. In human acute leukemia cell lines,
topoisomerase II alpha
expression was greatest in late S and G2 phases, but in
leukemia
patient samples the enzyme expression appeared to be much less cell cycle dependent. There was considerable interpatient variation in the effects of topotecan on
topoisomerase II alpha
expression in the
leukemia
patients, with a threefold increase in the median value after 48 h followed by a decline to pretreatment levels after 5 days of treatment with the topoisomerase I inhibitor. Although these findings should be treated with caution because of the small number of cases studied, they support the prediction that topoisomerase I inhibitors might be capable of increasing sensitivity to topoisomerase II active drugs such as anthracyclines and epipodophyllotoxins by upregulating topoisomerase II expression. They also illustrate the potential value of fluorescence image cytometry for making sequential measurements of the effects of drug resistance modulating agents in cancer patients.
...
PMID:Effects of topoisomerase I inhibition on the expression of topoisomerase II alpha measured with fluorescence image cytometry. 891 17
<< Previous
1
2
3
4
Next >>
