Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Drug
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Target Concepts:
Gene/Protein
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Enzyme
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Query: EC:5.99.1.2 (
topoisomerase
)
9,166
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cells exhibiting decreased
topoisomerase
II (Topo II) activity are resistant to several drugs that require Topo II as an intermediate. These drugs are cytotoxic due to the formation of a cleavable complex between the drug, Topo II and DNA.
Fostriecin
belongs to a new class of drugs that inhibit Topo II without inducing the formation of this cleavable complex. We tested fostriecin in three human small-cell lung carcinoma cell lines. GLC4 is the parent line. GLC4/ADR is the P-glycoprotein-negative multidrug-resistant subline, which is resistant to several Topo II inhibitors due to its decreased Topo II activity. GLC4/cDDP is the cisplatin-resistant subline, which displays increased Topo II activity. Topo II activity proved to be 100% in GLC4, 35% in GLC4/ADR and 130% in GLC4/cDDP. The fostriecin concentration causing inhibition of the growth of 50% of the cells (IC50) in the microculture tetrazolium assay following continuous incubation was 11.2, 4.1 and 14.9 microM, respectively. After 1-h incubations, the IC50 was 117.8, 101.3 and 219.8 microM, respectively. Our results indicate a relationship between Topo II activity and fostriecin sensitivity in these closely related cell lines. At least in vitro, fostriecin displayed the capacity to kill cells showing resistance to drugs due to decreased Topo II activity. There was no relationship between this capacity and an increase in the activity of the reduced-folate carrier system, the proposed mechanism for cellular entry of fostriecin, since we found no correlation between the cytotoxicity of fostriecin and that of methotrexate.
...
PMID:Lack of cross-resistance to fostriecin in a human small-cell lung carcinoma cell line showing topoisomerase II-related drug resistance. 165 25
Fostriecin
causes a delayed inhibition of replicative DNA synthesis in human cells, consistent with a role for DNA topoisomerase II (its target enzyme) at a late stage in replication.
Fostriecin
does not inhibit UV-induced excision repair. The less specific inhibitor novobiocin blocks repair in permeabilised cells given a low dose of UV, presumably through a mechanism other than the inhibition of
topoisomerase
II. Its effect cannot be accounted for by a depletion of the ATP required for incision. Camptothecin, an inhibitor of DNA topoisomerase I, blocks replicative DNA synthesis immediately but incompletely, suggesting a participation of topoisomerase I at the replication fork, but it, too, has no influence on DNA repair. We thus find no evidence for involvement of either topoisomerase I or II in the response of cells to UV damage.
...
PMID:Comparison of effects of fostriecin, novobiocin, and camptothecin, inhibitors of DNA topoisomerases, on DNA replication and repair in human cells. 215 21
Fostriecin
, a novel anticancer antibiotic produced by Streptomyces pulveraecus, is believed to act via inhibition of
topoisomerase
II. Single-dose intravenous administration to rats at dose levels of 8.8 to 48 mg/kg resulted in lethality at dose levels of 35 mg/kg and higher. Major toxic effects were observed primarily at 17.5 mg/kg and higher, were reversible, and consisted of bone marrow hypocellularity, leukopenia, neutropenia, thrombocytopenia, and diffuse necrosis of various lymphoid tissues. The kidney was also identified as a target organ. Renal effects were observed primarily at 20 mg/kg, were reversible, and included increases in serum BUN, creatinine, and 24-hr glucose excretion. Twenty-four-hour excretion of Na+, K+ and urine osmolality were decreased postdosing at 10 and 20 mg/kg. Renal lesions, observed primarily at 20 mg/kg, consisted of vacuolization and necrosis of proximal and distal tubular epithelium at the corticomedullary junction extending into the medulla. Repeated daily intravenous administration of fostriecin for 5 days to rats at dose levels of 2.5 to 26.5 mg/kg resulted in death at 10 mg/kg and above and similar hematologic, bone marrow, lymphoid tissue, and renal changes as observed in the single-dose study. Hematological, bone marrow, lymphoid, and renal changes observed in rats were consistent with the cytotoxic mechanism of action of the compound.
...
PMID:Preclinical toxicological evaluation of fostriecin, a novel anticancer antibiotic, in rats. 222 54
Fostriecin
is a new antitumor antibiotic which is being developed further as an anticancer agent based on its marked activity in murine leukemias. Its mechanism of action, however, has thus far remained unknown. The present study demonstrates that fostriecin inhibits the catalytic activity of partially purified type II
topoisomerase
from Ehrlich ascites carcinoma. Under the experimental conditions employed, fostriecin completely inhibited the enzyme at 100 microM. A general kinetic analysis showed that fostriecin inhibited
topoisomerase
in an uncompetitive manner with a Ki,app of 110 microM and produced kinetics that were distinctly different from those of VM-26 which exhibited noncompetitive inhibition.
Fostriecin
did not cause DNA strand breaks in L1210 cells, suggesting that it did not stabilize a cleavable complex as do other known inhibitors of this enzyme.
Fostriecin
, however, did partially inhibit DNA strand breaks produced by amsacrine. An analysis by flow cytometry showed that L1210 cells exposed to 5 microM fostriecin for 12 hr caused a block in the G2 phase of the cell cycle. These studies thus suggest that the mechanism by which fostriecin produces its antitumor effects may be through inhibition of
topoisomerase
II and that the type of inhibition is markedly different from existing antitumor agents which inhibit this enzyme.
...
PMID:Inhibition of type II topoisomerase by fostriecin. 284 52
In most eukaryotic cells, entry into mitosis is tightly controlled and requires completely replicated and undamaged DNA. We show that the antitumor drug, fostricin, interferes with this control; it induces cycling cells to enter mitosis prematurely, and it can overcome the mitotic entry checkpoint, forcing into mitosis cells that were arrested in the division cycle by treatment with the DNA replication inhibitor aphidicolin or with the DNA-damaging agents camptothecin and teniposide. This effect was observed in all rodent, simian, and human cell lines tested.
Fostriecin
also hampers progression through the later stages of mitosis as determined by the absence of normal half-spindles, anaphase figures, and telophase figures. The only previously known target for fostriecin is
topoisomerase
II, which is inhibited in vitro with a 50% inhibitory concentration of 40 microM (T. J. Boritzki, T. S. Wolfard, J. A. Besserer, R. C. Jackson, and D. W. Fry. Inhibition of type II
topoisomerase
by fostriecin. Biochem. Pharmacol., 37: 4063-4068, 1988). We show that fostriecin is a more potent inhibitor of protein phosphatase 1, with a 50% inhibitory concentration of 4 microM and protein phosphatase 2A, with a 50% inhibitory concentration of 40 nM. Inhibition of the mitotic entry checkpoint and inhibition of protein phosphatases are novel properties for antitumor drugs with potential or proven therapeutic value.
...
PMID:Antitumor drug fostriecin inhibits the mitotic entry checkpoint and protein phosphatases 1 and 2A. 795 57
Fostriecin
is an antitumor antibiotic with marked activity against ovarian, breast, and lung cancer cell lines in the human tumor clonogenic assay. The mechanism of cytotoxicity in vivo is unknown; in vitro it has been shown to inhibit macromolecular synthesis, interact with the reduced folate carrier system, and inhibit
topoisomerase
II. Phase I testing of fostriecin in a daily for 5 days schedule has begun in cancer patients. A high-pressure liquid chromatographic method to measure fostriecin in plasma samples was developed using sulfaquinoxaline as an internal standard and ultraviolet detection (268 nm). The extraction efficiency is 70% and the sensitivity limit is 100 ng/ml. The pharmacokinetics of fostriecin were determined in six rabbits following intravenous injection of 12 mg/m2. The mean distribution space was 4.44 L/m2 and the mean plasma clearance was 302 ml/min/m2. The elimination half-life was 11.95 +/- 8.55 min. All rabbits exhibited a 10-60-fold increase in aspartate aminotransferase (AST) and alanine aminotransferase (ALT) that resolved within 48 h of drug administration.
...
PMID:Determination of fostriecin pharmacokinetics in plasma using high-pressure liquid chromatography assay. 800 68
Fostriecin
, a structurally unique phosphate ester, is presently under evaluation in clinical trials to determine its potential use as an antitumor drug in humans.
Fostriecin
has been reported as having inhibitory activity against
DNA topoisomerase
type II and protein phosphatases implicated in cell-cycle control. However, the relative contribution of these mechanisms to the antitumor activity of fostriecin has not yet been elucidated. In this study, after confirming that fostriecin is a potent inhibitor of serine/threonine protein phosphatase type 2A and a weak inhibitor of serine/threonine protein phosphatase type 1, we show that fostriecin inhibits approximately 50% of the divalent cation independent serine/threonine protein phosphatase (PPase) activity contained in whole cell homogenates of Chinese hamster ovary cells at concentrations associated with antitumor activity (1-20 microM). Investigations into the cellular effects produced by fostriecin treatment reveal that 1-20 microM fostriecin induces a dose-dependent arrest of cell growth during the G2-M phase of the cell cycle. Immunostaining of treated cells indicates that growth arrest occurs before the completion of mitosis and that fostriecin-induced growth arrest is associated with the aberrant amplification of centrosomes, which results in the formation of abnormal mitotic spindles. The "mitotic block" induced by fostriecin is reversible if treatment is discontinued in <24 h. However, after approximately 24-30 h of continuous treatment, growth arrest is not reversible, and treated cells die even when placed in fostriecin-free media. Correlative studies conducted with established PPase inhibitors reveal that, when applied at concentrations that inhibit PPase activity to a comparable extent, both okadaic acid and cantharidin also induce aberrant centrosome replication, the appearance of multiple aberrant mitotic spindles, and G2-M-phase growth arrest. These studies add additional support to the concept that PPase inhibition underlies the antitumor activity of fostriecin and suggest that other type-selective PPase inhibitors should be evaluated for potential antitumor activity.
...
PMID:Fostriecin-mediated G2-M-phase growth arrest correlates with abnormal centrosome replication, the formation of aberrant mitotic spindles, and the inhibition of serine/threonine protein phosphatase activity. 972 69
We conducted a phase I and pharmacokinetic study of the
topoisomerase
II catalytic inhibitor fostriecin.
Fostriecin
was administered intravenously over 60 min on days 1-5 at 4-week intervals. Dose was escalated from 2 mg m(-2) day(-1) to 20 mg m(-2) day(-1) in 20 patients. Drug pharmacokinetics was analysed with high performance liquid chromatography with UV-detection. Plasma collected during drug administration was tested in vitro for growth inhibition of a teniposide-resistant small-cell lung cancer (SCLC) cell line. The predominant toxicities were elevated liver transaminases (maximum common toxicity criteria (CTC) grade 4) and serum creatinine (maximum CTC grade 2). These showed only a limited increase with increasing doses, often recovered during drug administration and were fully reversible. Duration of elevated alanine-amino transferase (ALT) was dose-limiting in one patient at 20 mg m(-2). Other frequent toxicities were grade 1-2 nausea/vomiting, fever and mild fatigue. Mean fostriecin plasma half-life was 0.36 h (initial; 95% CI, 0-0.76 h) and 1.51 h (terminal; 95% CI, 0.41-2.61 h). A metabolite, most probably dephosphorylated fostriecin, was detected in plasma and urine. No tumour responses were observed, but the plasma concentrations reached in the patients were insufficient to induce significant growth inhibition in vitro. The maximum tolerated dose (MTD) has not been reached, because drug supply was stopped at the 20 mg m(-2) dose level. However, further escalation seems possible and is warranted to achieve potentially effective drug levels.
Fostriecin
has a short plasma half-life and longer duration of infusion should be considered.
...
PMID:Phase I and pharmacokinetic study of the topoisomerase II catalytic inhibitor fostriecin. 1007 Aug 85
The first total synthesis of the potent antitumor agent fostriecin (CI-920) is described, confirming the relative and absolute stereochemistry assignments.
Fostriecin
is a unique phosphate monoester which exhibits weak
topoisomerase
II inhibition (IC(50) = 40 microM) and more potent and selective protein phosphatase 2A and 4 (PP2A and PP4) inhibition (IC(50) = 40-3 nM and 1.5 nM), resulting in mitotic entry checkpoint inhibition. Phase I clinical trials with fostriecin, which were the first to explore the potential of this novel mechanism of action, were halted even before therapeutic concentrations were reached or dose-limiting toxicity established due to problems of drug stability observed during storage of naturally derived material. The synthesis of fostriecin detailed herein is the first stage of efforts that may serve to address these limitations to the clinical examination of this or related promising new antitumor agents.
...
PMID:Total synthesis of fostriecin (CI-920). 1145 79
A review of the current status of the chemistry and biology of fostriecin (CI-920) is provided.
Fostriecin
is a structurally unique, naturally-occurring phosphate monoester that exhibits potent and efficacious antitumor activity. Initially it was suggested that its activity could be attributed to a direct, albeit weak, inhibition of the enzyme
topoisomerase
II. However, recent studies have shown that fostriecin inhibits the mitotic entry checkpoint through the much more potent and selective inhibition of protein phosphatase 2A (PP2A) and protein phosphatase 4 (PP4). In fact, it is the most selective small molecule inhibitor of a protein phosphatase disclosed to date. The contribution, if any, that
topoisomerase
II versus PP2A/PP4 inhibition makes to fostriecin's antitumor activity has not yet been fully defined. Initial phase I clinical trials with fostriecin never reached dose-limiting toxicity or therapeutic dose levels and were halted due to its storage instability and unpredictable chemical purity. Hence, the total synthesis of fostriecin has been pursued in order to confirm its structure and stereochemistry, to provide access to quantities of the pure natural product, and to access key partial structures or simplified/stable analogs. Several additional natural products have been isolated which contain similar structural features (phospholine, phoslactomycins, phosphazomycin, leustroducsins, sultriecin, and cytostatin), and some exhibit comparable biological properties.
...
PMID:Fostriecin: chemistry and biology. 1236 68
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