Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
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Enzyme
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Query: EC:2.3.1.21 (
CPT
)
4,580
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
CPT-11 and Topotecan are a new semisynthetic derivative of
CPT
, and have been shown to inhibit
DNA topoisomerase I
and to have a strong antitumor activity with low toxicity against murine tumor. On the other hard, the new antitumor compounds, NC-190 and IST-622 have been shown to inhibit DNA topoisomerase II, and the clinical study are currently under progress. A phase II study of CPT-11 demonstrated that CPT-11 was a very active agent which a acceptable toxicities against patient with advanced non-small cell lung cancer and small cell lung cancer.
...
PMID:[DNA topoisomerase inhibitor]. 133 23
CPT-11, 7-ethyl-10-[4-(1-piperidino)-1-piperidino]carbonyloxy camptothecin, is a well-known
DNA topoisomerase I
inhibitor. SN-38 is a metabolite of this compound. Both emit fluorescence when activated by a laser beam. With a confocal laser scanning microscope (CLSM), we determined the intracellular distribution of CPT-11 and SN-38 and the chronological changes in drug-treated PC-7, a cell line of human non-small cell lung cancer, and its CPT-11 resistant variant, PC-7/
CPT
cells. There were many more granules in the cytoplasm in PC-7/
CPT
than in the parent cell line (PC-7). The granule formation of the resistant cell could indicate a different drug metabolism in the cytoplasm from that of the parent cell. This technique would provide a new way of investigating the mechanism of resistance of cancer cells to anticancer drugs.
...
PMID:Intracellular distribution of CPT-11 in CPT-11-resistant cells with confocal laser scanning microscopy. 133 95
We established a cisplatin-resistant human ovarian cancer cell line (HAC2/0.1) from the parent cell line (HAC2/P) by continuous exposure of HAC2/P to 0.1 microgram of cisplatin/ml. Drug sensitivity determined by colony assay revealed that HAC2/0.1 was 2.4 times as resistant to cisplatin as the parental cell line. HAC2/0.1 was 12.1 and 2.0 times as resistant to (4s)-4,11-diethyl-4-hydroxy-9-[(4-piperidinopiperidino)-carbony loxy]dione hydrochloride trithydrate (CPT-11) and 7-ethyl-10-hydroxy-
CPT
(SN-38; an active metabolite of CPT-11), respectively, than HAC2/P. We studied the mechanism of cross-resistance to CPT-11 in HAC2/0.1. The glutathione (GSH) content was higher in HAC2/0.1 than in HAC2/P. The activity of
DNA topoisomerase I
and the accumulation of CPT-11 and SN-38 were also the same. On the other hand, the conversion of CPT-11 to SN-38 in HAC2/0.1 was about 3-fold less than in HAC2/P. Treatment of the parent and resistant cell lines with buthionine sulfoxamine (BSO) decreased the GSH content of both cell lines and decreased the 50% inhibitory concentrations of all the tested drugs for HAC2/0.1. The accumulation of CPT-11 in HAC2/0.1 but not in HAC2/P was increased by BSO treatment. On the other hand, in HAC2/P the 50% inhibitory concentrations of SN-38 and CPT-11 were not influenced by BSO treatment. The 50% inhibitory concentration of CPT-11 for HAC2/0.1 was not reduced by BSO treatment to the level for HAC2/P, even though the GSH content had been reduced more than in HAC2/P. These results show that there is no clear relationship between GSH and resistance to CPT-11. The decreased conversion of CPT-11 to SN-38 is considered to be the main cause of resistance to CPT-11 in this cell line.
...
PMID:Mechanism of cross-resistance to a camptothecin analogue (CPT-11) in a human ovarian cancer cell line selected by cisplatin. 134 10
Camptothecin-11 (CPT-11) is a new derivative of camptothecin, a plant alkaloid antitumor agent, and a good candidate for clinical trials because of higher antitumor activity, less toxicity, and high aqueous solubility. CPT-11 is known to be altered into an active form, SN-38, by esterase in in vivo. CPT-11-resistant cells (PC-7/
CPT
) established from a human non-small cell lung cancer cell (PC-7) by stepwise, continuous treatment with CPT-11 exhibit about a 10-fold increase in resistance to the drug. CPT-11-resistant cells show a moderate cross-resistance to camptothecin (x8.6) and SN-38 (x8.6), and weak cross-resistance to Adriamycin (x2.2) and 5-fluorouracil (x2.4). The comparative studies between the parent (PC-7) and resistant (PC-7/
CPT
) cell lines with respect to their growth characterization shows a longer cell doubling time (45.8 versus 35.5 h), a lower cloning efficiency (3.2 versus 7.1%), and a lower population of S-phase cells (26.4 versus 36.0%) in the CPT-11-resistant cells. This observation may partly explain the resistance to CPT-11, a drug whose activity is cell cycle specific. Accumulation of CPT-11 is nearly the same in both cell lines. However, the intracellular concentration of SN-38 formed in the parent cells was 2-fold greater than in the CPT-11-resistant cells. This alteration may affect to some extent to the resistance. As assayed by relaxation of supercoiled plasmid DNA, the total activity of
DNA topoisomerase I
from the CPT-11-resistant cells was shown to be reduced to one-fourth its level in sensitive cells. The reduced activity was caused by a reduction of amount of
DNA topoisomerase I
. Furthermore, the enzyme from the resistant cells was shown to be 5-fold more resistant to CPT-11 than the enzyme from the parent cells. Thus, decreased total activity of topoisomerase I may play an important role in cellular resistance to CPT-11, and it appears that this decreased activity is due to a resistant form of topoisomerase I in CPT-11 resistant cells.
...
PMID:Establishment of a camptothecin analogue (CPT-11)-resistant cell line of human non-small cell lung cancer: characterization and mechanism of resistance. 216 85
Collateral drug sensitivity was induced in CPT-11-resistant cell lines (
CPT
-K and T). Ten of the 19 kinds of antineoplastic agents (especially, 5 of 6 kinds of DNA topoisomerase II inhibiting agents) were effective in inducing collateral drug sensitivity. Alteration of
DNA topoisomerase I
seemed to be unrelated to acquisition of multidrug resistance.
...
PMID:Collateral drug sensitivity induced in CPT-11 (a novel derivative of camptothecin)-resistant cell lines. 216 67
DNA topoisomerase I
(top1) is a ubiquitous nuclear enzyme. It is specifically inhibited by camptothecin, a natural product derived from the bark of the tree Camptotheca acuminata. Camptothecin and several of its derivatives are presently in clinical trial and exhibit remarkable anticancer activity. The present study is a further investigation of the molecular interactions between the drug and the enzyme-DNA complex. We utilized an alkylating camptothecin derivative, 7-chloromethyl-10,11-methylenedioxycamptothecin (7-ClMe-MDO-CPT), and compared its activity against calf thymus top1 in a DNA oligonucleotide containing a single top1 cleavage site with the activity of its nonalkylating analog, 7-ethyl-10,11-methylenedioxycamptothecin (7-Et-MDO-CPT). In the presence of top1, 7-ClMe-MDO-
CPT
produced a DNA fragment that migrated more slowly than the top1-cleaved DNA fragment observed with 7-Et-MDO-
CPT
. Top1 was unable to religate this fragment in the presence of high NaCl concentration or proteinase K at 50 degrees C. This fragment was resistant to piperidine treatment and was also formed with an oligonucleotide containing a 7-deazaguanine at the 5' terminus of the top1-cleaved DNA (base + 1). It was however cleaved by formic acid treatment followed by piperidine. These observations are consistent with alkylation of the +1 base (adenine or guanine) by 7-ClMe-MDO-
CPT
in the presence of top1 covalent complexes and provide direct evidence that camptothecins inhibit top1 by binding at the enzyme-DNA interface.
...
PMID:Interaction of an alkylating camptothecin derivative with a DNA base at topoisomerase I-DNA cleavage sites. 756 32
Camptothecins belong to a group of anticancer agents with a specific mechanism of action: stabilization and trapping of eukaryotic
DNA topoisomerase I
(top1) cleavable complexes. Two water-soluble camptothecin derivatives are in clinical trial, and their anticancer activity appears promising: topotecan and CPT-11. The latter is hydrolyzed to its active metabolite, SN-38. We have previously reported that SN-38 is among the most cytotoxic camptothecin derivatives and that the cleavable complexes induced by SN-38 are more stable than those induced by
CPT
in human colon carcinoma cells [Tanizawa et al. (1994) J. Natl. Cancer Inst, 86, 836-842]. Top1 inhibition was further investigated by determining the salt-induced religation rates of top1-cleavable complexes in fragments from the top1 cDNA. Religation depended on both the local DNA base sequence and the drug structure. Cleavable complexes induced by SN-38 and 10,11-methylenedioxycamptothecin were markedly more stable (less rapidly reversible) than those induced by
CPT
, topotecan, and 9-aminocamptothecin. The stability of 10-hydroxycamptothecin-induced cleavable complexes was intermediate to those of
CPT
and SN-38, indicating that both the 10-hydroxy and the 7-ethyl group of SN-38 probably interact with the drug binding site of top1-cleavable complexes. A DNA oligonucleotide containing a single top1 cleavage site was also used to compare the camptothecin derivatives. The salt stability of drug-induced cleavable complexes in the top1 oligonucleotide was correlated with the drug potencies to induce top1 cleavage. Cell killing requires that trapped cleavable complexes be converted to DNA damage as a result of replication fork collision.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Differential stabilization of eukaryotic DNA topoisomerase I cleavable complexes by camptothecin derivatives. 776 31
Hoechst dye 33342 (Ho33342), like many other DNA minor groove binding ligands and its parent compound Hoechst dye 33258 (Ho33258), nonspecifically inhibits the catalytic activities of many DNA enzymes. However, both Ho33258 and Ho33342 also specifically interrupt the breakage/reunion reaction of mammalian
DNA topoisomerase I
by trapping reversible topoisomerase I cleavable complexes. The enhanced membrane permeability of Ho33342 over its parent compound Ho33258 has allowed studies of the cellular action of Ho33342. Our results suggest that Ho33342 also traps topoisomerase I but not topoisomerase II into reversible cleavable complexes in human KB cells. Although Ho33342 shares a similar mechanism of action with camptothecin, a prototypic topoisomerase I poison, in trapping topoisomerase I cleavable complexes, Ho33342 differs from camptothecin in its effect on drug-resistant cells. Different from camptothecin, Ho33342 was shown to be about 200-fold less cytotoxic in MDR1-overexpressing human KB V1 cells relative to parental human KB 3-1 cells. Ho33342 is only 5-fold less cytotoxic for camptothecin-resistant
CPT
-K5 cells, which expresses a highly camptothecin-resistant from of topoisomerase I, than for the wild type human lymphoblast RPMI 8402 cells. Our studies suggest a potential use of Hoechst 33342 as a new topoisomerase I poison in antitumor chemotherapy.
...
PMID:A new mammalian DNA topoisomerase I poison Hoechst 33342: cytotoxicity and drug resistance in human cell cultures. 838 8
A camptothecin-resistant cell line that exhibits more than 600-fold resistance to camptothecin, designated
CPT
(R)-2000, was established from mutagen-treated A2780 ovarian cancer cells.
CPT
(R)-2000 cells also exhibit 3-fold resistance to a DNA minor groove-binding ligand Ho33342, a different class of mammalian
DNA topoisomerase I
inhibitors. However,
CPT
(R)-2000 cells exhibit no cross-resistance toward drugs such as Adriamycin, amsacrine, vinblastine, and 4'-dimethyl-epipodophyllotoxin. The mRNA, protein levels, and enzyme-specific activity of
DNA topoisomerase I
are relatively the same in parental and
CPT
(R)-2000 cells. However, unlike the
DNA topoisomerase I
activity of parental cells, which can be inhibited by camptothecin, that of
CPT
(R)-2000 cells cannot. In addition, parental cells after camptothecin treatment results in a decrease in the level of
DNA topoisomerase I
, whereas
CPT
(R)-2000 cells are insensitive to camptothecin treatment. These results suggested that the mechanism of camptothecin resistance is most likely due to a
DNA topoisomerase I
structural mutation. This notion is supported by DNA sequencing results confirming that
DNA topoisomerase I
of
CPT
(R)-2000 is mutated at amino acid residues Gly717 to Val and Thr729 to Ile. We also used the yeast system to examine the mutation(s) responsible for camptothecin resistance. Our results show that each single amino acid change results in partial resistance, and the double mutation gives a synergetic effect on camptothecin resistance. Because both mutation sites are near the catalytic active center, this observation raises the possibility that camptothecin may act at the vicinity of the catalytic active site of the enzyme-camptothecin-DNA complex.
...
PMID:Identification of mutations at DNA topoisomerase I responsible for camptothecin resistance. 910 54
Using an episomal eucaryotic expression vector, we derived three stable transfected human leukemic U-937 variant lines showing differential expression of the Bcl-xL protein. Preventive effect of Bcl-xL on cell death induced by various concentrations of camptothecin (
DNA topoisomerase I
inhibitor;
CPT
) was observed in the three lines with most pronounced effect in cells containing the highest level of Bcl-xL expression. These results show that increased cell death protection by Bcl-xL is correlated with its level of expression. The extent of DNA strand break formation and DNA synthesis inhibition following
CPT
treatments was similar in control and transfected U-937 cells, suggesting that Bcl-xL acts downstream of
CPT
-
DNA topoisomerase I
-mediated DNA strand breaks. Modulation of cell death by Bcl-xL was also observed in cells treated with etoposide, vinblastine, paclitaxel, and cisplatinum (II) diammine dichloride. To define whether Bcl-xL functions downstream or upstream of apoptogenic proteolytic cascade activation, we compared kinetics of DNA fragmentation in treated cells with kinetics of caspase 1-like, caspase 3-like, and N-tosyl-L-phenylalanylchloromethyl ketone (TPCK)-sensitive activities. In
CPT
-treated U-937 cells, caspase 3-like and TPCK-sensitive activities promoting DNA fragmentation in a cell-free system were detected much more rapidly in extracts obtained from
CPT
-treated U-937 cells compared to those obtained from
CPT
-treated U-937-Bcl-xL variant cells. These results suggest that Bcl-xL delays their activation that correlates with the occurrence of DNA fragmentation. Addition of recombinant Bcl-xL in extracts containing DEVDase and TPCK-sensitive activities did not inhibit these activities, suggesting that Bcl-xL acts primarily upstream of their activation in the apoptotic process. Taken together, these results suggest that Bcl-xL is a primary checkpoint that can block or delay transmission of cell death signals emerging from DNA damage and prevents activation of an apoptogenic proteolytic cascade.
...
PMID:Bcl-xL modulates apoptosis induced by anticancer drugs and delays DEVDase and DNA fragmentation-promoting activities. 957 Sep 26
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