Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:5.99.1.2 (topoisomerase)
 9,166 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CPT-11 is a potent inhibitor of topoisomerase I and has shown antitumor activity in brain xenografts and in clinical trials in recurrent/progressive malignant glioma. VM-26 and VP-16 are topoisomerase II inhibitors and have also shown activity in phase II trials. We performed a phase II trial of intravenous CPT-11 (125 mg/m2) followed 24 h later by VM-26 (125 mg/m2). VP-16 (125 mg/m2) was later substituted for VM-26 due to drug shortage. For patients on anticonvulsants, the starting dose for all drugs was 150 mg/m2. Drugs were given weekly for 3 weeks followed by 1-week rest. Twenty-five patients were entered into the study. Three patients (12%) had improvement in CAT/MRI brain scans (95% confidence interval 3-31%). Fatigue and myelosuppression, mainly leukopenia, were the main toxicities. This combination of the topoisomerase I inhibitor CPT-11 followed by the topoisomerase II inhibitor, VM-26 or VP-16, has shown modest antitumor activity comparable to that reported for each drug singly. Myelosuppression is the main toxicity when topoisomerase I and II inhibitors are combined together.
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PMID:Clinical trial of CPT-11 and VM-26/VP-16 for patients with recurrent malignant brain tumors. 1705 17

Several mammalian carboxylesterases were shown to activate the prodrug irinotecan (CPT-11) to produce 7-ethyl-10-hydroxycamptothecin (SN-38), a topoisomerase inhibitor used in cancer therapy. However, the potential use of bacterial carboxylesterases, which have the advantage of high stability, has not been explored. We present the crystal structure of the carboxyesterase Est55 from Geobacillus stearothermophilus and evaluation of its enzyme activity on CPT-11. Crystal structures were determined at pH 6.2 and pH 6.8 and resolution of 2.0 A and 1.58 A, respectively. Est55 folds into three domains, a catalytic domain, an alpha/beta domain and a regulatory domain. The structure is in an inactive form; the side-chain of His409, one of the catalytic triad residues, is directed away from the other catalytic residues Ser194 and Glu310. Moreover, the adjacent Cys408 is triply oxidized and lies in the oxyanion hole, which would block the binding of substrate, suggesting a regulatory role. However, Cys408 is not essential for enzyme activity. Mutation of Cys408 showed that hydrophobic side-chains were favorable, while polar serine was unfavorable for enzyme activity. Est55 was shown to hydrolyze CPT-11 into the active form SN-38. The mutant C408V provided a more stable enzyme for activation of CPT-11. Therefore, engineered thermostable Est55 is a candidate for use with irinotecan in enzyme-prodrug cancer therapy.
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PMID:Crystal structure of the Geobacillus stearothermophilus carboxylesterase Est55 and its activation of prodrug CPT-11. 1723 98

We conducted the present study to investigate whether and how chemosensitivity can be determined by means of genetic diagnosis using drug-resistance genes in patients with epithelial ovarian cancer. A total of 75 patients who had epithelial ovarian cancer with measurable lesions were entered into this study. Thirty-three patients received first-line chemotherapy, consisting of paclitaxel and carboplatin (TJ). Forty-two patients received second-line chemotherapy, 22 received EP therapy consisting of etoposide and cisplatin (CDDP), and 20 received irinotecan (CPT-11) and CDDP (CPT-11/CDDP) therapy. Tumor samples were obtained before chemotherapy. MessengerRNA expressions of the multidrug-resistance (MDR)-1 gene, MDR-associated protein-1 (MRP-1), topoisomerase (topo) I, and topo IIalpha were measured by real-time reverse transcription-polymerase chain reaction. The cutoff values of each gene were determined by the receiver operating characteristic curve. MDR-1 expression was significantly higher in patients who did not respond to TJ therapy. The expression of topo IIalpha was significantly higher in patients who did respond to EP therapy. The expression of topo I was significantly higher in patients who did respond to CPT-11/CDDP. MRP-1 expression did not differ between responders and nonresponders in all regimens. The cutoff value was 80 for MDR-1, 90 for topo IIalpha, and 200 for topo I. Next, to evaluate genetic diagnosis, 31 patients were newly added. The accuracy of this genetic diagnosis for chemosensitivity was 85.7% for TJ, 77.8% for EP, and 100.0% for CPT-11/CDDP therapy. The present study suggests that genetic diagnosis may be useful to determine chemosensitivity in patients with epithelial ovarian cancer.
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PMID:Genetic diagnosis for chemosensitivity with drug-resistance genes in epithelial ovarian cancer. 1729 Dec 35

Biliary tract cancer is of highly malignancy with a poor 5-year survival. However, established chemotherapeutic regimens have not yet been established. Previously, we have reported that hMLH1, a mismatch repair (MMR) gene was frequently (57%) found to be lacking in surgically resected biliary tract carcinomas and the patients lacking the expression of hMLH1 revealed a poorer prognosis than those patients who possessed it. The MMR gene has been considered to be associated with sensitivity to various chemotherapeutic agents that act on DNA. A loss of MMR expression has been reported to increase sensitivity to topoisomerase inhibitors such as etoposide (ETP) or camptothecins (CPT). In the present study, whether or not hMLH1 deficiency resulted in a higher sensitivity to irinotecan (CPT-11) active form (SN-38) was investigated using a short interfering (Si)RNA system. A quantitative reverse transcription-polymerase chain reaction (RT-PCR) was conducted to measure the levels of hMLH1 expression in seven cancer cell lines, and this was compared with the drug sensitivity (IC50) to SN-38. The hMLH1 expression was correlated with the IC50 for SN-38, although the relationship was not statistically significant (R = 0.717, p = 0.0715). SiRNA double strand RNA (dsRNA) was transiently transfected into KMG-C (gallbladder cancer) cells. hMLH1 mRNA expression was repressed by hMLH1 dsRNA in a dose-dependent manner in comparison to the control dsRNA. The cell growth of the hMLH1 dsRNA transfected group was decreased by approximately 50% by SN-38 exposure. Flow cytometry was also carried out to examine the effect of the SN-38 treatment on the cell cycle. Following hMLH1 dsRNA transfection, the subG1 fraction was increased in comparison with the control in a dose-dependent manner. In conclusion, a low expression of hMLH1 in biliary tract cancer may aid in predicting its responsiveness to CPT-11 (SN38).
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PMID:CPT-11 (SN-38) chemotherapy may be selectively applicable to biliary tract cancer with low hMLH1 expression. 1746 13

We have previously shown that convection-enhanced delivery (CED) of highly stable nanoparticle/liposome agents encapsulating chemotherapeutic drugs is effective against intracranial rodent brain tumor xenografts. In this study, we have evaluated the combination of a newly developed nanoparticle/liposome containing the topoisomerase I inhibitor CPT-11 (nanoliposomal CPT-11 [nLs-CPT-11]), and PEGylated liposomal doxorubicin (Doxil) containing the topoisomerase II inhibitor doxorubicin. Both drugs were detectable in the CNS for more than 36 days after a single CED application. Tissue half-life was 16.7 days for nLs-CPT-11 and 10.9 days for Doxil. The combination of the two agents produced synergistic cytotoxicity in vitro. In vivo in U251MG and U87MG intracranial rodent xenograft models, CED of the combination was also more efficacious than either agent used singly. Analysis of the parameters involved in this approach indicated that tissue pharmacokinetics, tumor microanatomy, and biochemical interactions of the drugs all contributed to the therapeutic efficacy observed. These findings have implications for further clinical applications of CED-based treatment of brain tumors.
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PMID:Convection-enhanced delivery of nanoliposomal CPT-11 (irinotecan) and PEGylated liposomal doxorubicin (Doxil) in rodent intracranial brain tumor xenografts. 1765 69

Copper is an essential trace element and several copper containing proteins are indispensable for such processes as oxidative respiration, neural development and collagen remodeling. Copper metabolism is precisely regulated by several transporters and chaperone proteins. Copper Transport Protein 1 (CTR1) selectively uptakes copper into cells. Subsequently three chaperone proteins, HAH1 (human atx1 homologue 1), Cox17p and CCS (copper chaperone for superoxide dismutase) transport copper to the Golgi apparatus, mitochondria and copper/zinc superoxide dismutase respectively. Defects in the copper transporters ATP7A and ATP7B are responsible for Menkes disease and Wilson's disease respectively. These proteins transport copper via HAH1 to the Golgi apparatus to deliver copper to cuproenzymes. They also prevent cellular damage from an excess accumulation of copper by mediating the efflux of copper from the cell. There is increasing evidence that copper transport mechanisms may play a role in drug resistance. We, and others, found that ATP7A and ATP7B are involved in drug resistance against the anti-tumor drug cis-diamminedichloroplatinum (II) (CDDP). A relationship between the expression of ATP7A or ATP7B in tumors and CDDP resistance is supported by clinical studies. In addition, the copper uptake transporter CTR1 has also been reported to play a role in CDDP sensitivity. Furthermore, we have recently found that the effect of ATP7A on drug resistance is not limited to CDDP. Using an ex vivo drug sensitivity assay, the histoculture drug response assay (HDRA), the expression of ATP7A in human surgically resected colon cancer cells correlated with sensitivity to 7-ethyl-10-hydroxy-camptothecin (SN-38). ATP7A-overexpressing cells are resistant to many anticancer drugs including SN-38, 7-ethyl-10-[4-(1-piperidino)-1-piperidino] carbonyloxycamptothecin (CPT-11), vincristine, paclitaxel, etoposide, doxorubicin (Dox), and mitoxantron. The mechanism by which ATP7A and copper metabolism modulate drug transport appears to involve modulation of drug cellular localization via modulation of the vesicle transport system. In ATP7A overexpressing cells, Dox accumulates in the Golgi apparatus. In contrast, in the parental cells, Dox is localized in the nuclei, where the target molecules of Dox, topoisomerase II and DNA, are found. Disruption of the intracellular vesicle transport system with monensin, a Na+/H+ ionophore, induced the relocalization of Dox from the Golgi apparatus to the nuclei in the ATP7A overexpressing cells. These data suggested that ATP7A-related drug transport is dependent on the vesicle transport system. Thus copper transport systems play important roles in drug transport as well as in copper metabolism. Components of copper metabolism are therefore likely to include target molecules for the modulation of drug potency of not only anti-cancer agents but also of other drugs.
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PMID:Copper transport systems are involved in multidrug resistance and drug transport. 1907 68

Neural stem cells (NSCs) have been investigated in preclinical models as delivery vehicles for therapeutic genes for treatment of tumors in the central nervous system and other organs. Melanoma at early stages is effectively treated with surgery and radiotherapy, however metastatic disease is almost universally fatal, thus novel therapeutic approaches are needed. We studied the use of HB1.F3.CD therapeutic NSCs, a well-characterized clonal cell line derived from human fetal telencephalon, for their potential of secreting prodrug-activating enzyme. HB1.F3.CD cells were transduced by adenovirus encoding rabbit carboxylesterase (rCE), which converts CPT-11 into SN-38, a potent topoisomerase 1 inhibitor. In vitro cell migration assays revealed robust migration of NSCs to conditioned media from melanoma cells. Cytokine profiles showed that IL-6, IL-8, MCP-1 and TIMP-2, known chemoattractants for stem cells, were highly expressed by melanoma cells. Exposure of melanoma cells to conditioned media from the HB1.F3.CD.rCE cells in the presence of CPT-11 increased the tumor cell-killing effect by approximately 100-fold when compared to CPT-11 alone. Our data demonstrate the rational for NSC-based enzyme/prodrug therapeutic approach to target metastatic melanoma. Future experiments will evaluate the therapeutic efficacy of NSC-mediated melanoma therapy in animal models, which will provide the basis for targeted therapy in patients with advanced melanoma.
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PMID:Therapeutic targeting of melanoma cells using neural stem cells expressing carboxylesterase, a CPT-11 activating enzyme. 1995 Dec 51

Histone deacetylase (HDAC) inhibitors represent a promising class of anti-cancer agents that are actively being evaluated in the context of clinical trials in solid tumors, including glioblastoma. What makes these agents particularly attractive is their capacity to enhance the activity of commonly used cytotoxics in cancer therapy, including both chemotherapy and ionizing radiation. As recent investigations suggest HDAC inhibitors may potentiate the cytotoxicity of topoisomerase inhibitors, which continue to be a commonly used class of agents in the treatment of glioblastoma, we performed preclinical studies to determine if this combination may be a promising strategy in glioblastoma. The effects of the HDAC inhibitor vorinostat and SN38, which is the active metabolite of the topoisomerase I inhibitor CPT-11, was evaluated using the clonogenic assay. Various treatment schedules were tested to determine optimum drug sequencing. Induction of DNA double strand breaks (DSBs) with the combination of vorinostat and SN38 was evaluated using the neutral comet assay, and their subsequent repair was evaluated by gammaH2AX foci kinetics using immunofluorescent cytochemistry. Vorinostat enhanced the cytotoxicity of SN38 in glioblastoma cell lines. Optimal treatment schedules involved maximal concurrent administration of agents. Pretreatment with either agent did not enhance cytotoxicity. Vorinostat potentiated SN38-induced DNA DSBs and attenuated their subsequent repair. These results indicate vorinostat enhances the cytotoxicity of SN38 in glioblastoma cell lines, suggesting this combination may be a worthwhile strategy to test in the context of a clinical trial.
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PMID:Vorinostat enhances the cytotoxic effects of the topoisomerase I inhibitor SN38 in glioblastoma cell lines. 2013 94

Canine spontaneous intracranial tumors bear striking similarities to their human tumor counterparts and have the potential to provide a large animal model system for more realistic validation of novel therapies typically developed in small rodent models. We used spontaneously occurring canine gliomas to investigate the use of convection-enhanced delivery (CED) of liposomal nanoparticles, containing topoisomerase inhibitor CPT-11. To facilitate visualization of intratumoral infusions by real-time magnetic resonance imaging (MRI), we included identically formulated liposomes loaded with Gadoteridol. Real-time MRI defined distribution of infusate within both tumor and normal brain tissues. The most important limiting factor for volume of distribution within tumor tissue was the leakage of infusate into ventricular or subarachnoid spaces. Decreased tumor volume, tumor necrosis, and modulation of tumor phenotype correlated with volume of distribution of infusate (Vd), infusion location, and leakage as determined by real-time MRI and histopathology. This study demonstrates the potential for canine spontaneous gliomas as a model system for the validation and development of novel therapeutic strategies for human brain tumors. Data obtained from infusions monitored in real time in a large, spontaneous tumor may provide information, allowing more accurate prediction and optimization of infusion parameters. Variability in Vd between tumors strongly suggests that real-time imaging should be an essential component of CED therapeutic trials to allow minimization of inappropriate infusions and accurate assessment of clinical outcomes.
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PMID:Canine spontaneous glioma: a translational model system for convection-enhanced delivery. 2048 58

CPT-11, a derivative of camptothecin (CPT) that interacts with type-I DNA topoisomerase, induced apoptosis in HL60 and Daudi cells in vitro. This cytotoxic activity was time and dose dependent, and was prevented by cycloheximide (CHX), a protein synthesis inhibitor, indicating the requirement of new protein synthesis for CPT-11-induced apoptotic cell death. Ac-Tyr-Val-Ala-Asp-aldehyde (YVAD) and Ac-Asp-Glu-Val-Asp-aldehyde (DEVD), synthesized tetrapeptide inhibitors of interleukin(1beta)-converting enzyme (ICE)- and CPP32/Yama-like proteases, were used to examine the CPT-11-induced death signal transduction. These inhibitors blocked CPT-11-induced cytotoxicity in a time- and dose-dependent manner. Cytotoxic activity of SN-38, an active metabolite of CPT-11, was about 1000-fold that of CPT-11 and was also prevented by CHX, YVAD and DEVD. The doses of YVAD, however, were a little too high; the prevention by YVAD is then thought to be non-specific. In addition, lymphocytes obtained from normal and lpr(cg) mutant mice showed similar susceptibility to CPT-11 cytotoxicity. These results indicate the direct involvement of CPP32/Yama-like protease in the CPT-11-induced death signal transduction pathway, and no involvement of Fas antigen in the pathway.
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PMID:Involvement of CPP32/Yama-like protease in CPT-11-induced death signal transduction pathway. 2065 Feb 53


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