Free-radical Mechanisms in the Cytotoxic Action of Antitumour Antibiotics

Emanuel, N.M.; Богданов, Г. Н.; Orlov, V. S.

doi:10.1070/rc1984v053n12abeh003143

Cited by 13 publications

(4 citation statements)

References 3 publications

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“…It requires activation by reductive enzymes under hypoxic conditions to produce its anticancer effects [Iyer and Szybalski, ; Bligh et al., ]. When activated, MMC forms cross‐links between neighboring guanine bases on the complementary deoxyribonucleic acid (DNA) strands [Tomasz et al., ], forms free radicals that contribute to the elimination of cancer cells [Emanuel et al., ], and induces apoptosis [Pirnia et al., ]. It is used as a single drug or in combination with other anticancer agents to treat colorectal and anal cancer, bladder cancer, cervix cancer, gastric cancer, lung cancer, pancreas cancer, etc.…”

Section: Introductionmentioning

confidence: 99%

Cytotoxicity of a Novel Oil/Water Microemulsion System Loaded with Mitomycin‐C in In Vitro Lung Cancer Models

Kotmakchiev

Kantarcı

Çetintaş

et al. 2012

Drug Development Research

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The aim of the study was to develop a novel oil/water microemulsion system to increase the cytotoxic effect of mitomycin C (MMC) on human lung cancer cell lines through comparison to the conventional MMC solution. The microemulsion formulation was composed of soybean oil, lecithin, Tween 80, ethanol, and water. Characterization of the microemulsions was carried out by means of particle size, viscosity, conductivity, storage stability, in vitro drug release, and in vitro hemolysis. Putative anticancer activity was determined using Calu1 and A549 carcinoma cell lines with an XTT [2,3-bis-(2-methoxy-4nitro-5-sulfophenyl)-2H-tetrazolium-5-carboxanilide] cell proliferation assay. Drug release from the MMCloaded microemulsion was sustained for more than 5 h while release from MMC solution was completed within 2 h. Based on the results of cytotoxicity study, a higher anticancer effect was observed with mitomycin C-loaded microemulsion (MMC-M), with IC50 values being approximately twofold to fourfold higher than that seen with the MMC solution on Calu1 and A549 carcinoma cell lines, respectively. In conclusion, MMC microemulsion has several advantages including slower drug release, a more pronounced anticancer effect at lower MMC doses, potentially leading to lower systemic toxicity potential if leakage occurs from the tumor site. Drug Dev Res 73 : 185-195, 2012.

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Section: Introductionmentioning

confidence: 99%

Cytotoxicity of a Novel Oil/Water Microemulsion System Loaded with Mitomycin‐C in In Vitro Lung Cancer Models

Kotmakchiev

Kantarcı

Çetintaş

et al. 2012

Drug Development Research

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“…However, the generation of active oxygen species makes anthracyclin antibiotics highly cardiotoxic, which is a major complication of cancer chemotherapy. 2,3 Radical attack on cardiac muscle cells results in their death or degeneration. 4 A feasible approach to reducing cardiotoxicity would be to trap active radicals produced under the action of the drug.…”

Section: Introductionmentioning

confidence: 99%

Intracellular Distribution and Intracellular Dynamics of a Spin-Labeled Analogue of Doxorubicin by Fluorescence and EPR Spectroscopy

Rapoport¹,

Pitina²

1998

Journal of Pharmaceutical Sciences

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Fluorescence spectroscopy revealed a dramatic difference between the intracellular distributions of doxorubicin (DOX) and its paramagnetic analogue, ruboxyl (Rb). Modification of the anthracyclin structure by introduction of a paramagnetic label at position 14 in the DOX molecule resulted in reduced DNA binding and enhanced partitioning into phospholipid membranes, as evidenced by the fluorescence-quenching experiments. Higher partitioning into cell membranes resulted in stronger intracellular fluorescence of Rb. In addition, a paramagnetic label on the Rb molecule provided a unique opportunity for an EPR investigation of the drug's intracellular distribution and dynamics. The observed changes in the EPR spectra of drug-containing cells during their life cycle suggested either a progressive release of the intercalated drug, cell membrane fluidization, or both.

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“…6,7 When activated, MMC forms crosslinks between neighboring guanine bases on the complementary DNA strands. 8 It also forms free radicals that contribute to the elimination of cancer cells 9 and induces apoptotic pathways in the cells. 10 One of the main drawbacks of MMC in clinical application is its very short biological half-life, only approximately 50 minutes.…”

Section: Introductionmentioning

confidence: 99%

Determination ofIn VivoBehavior of Mitomycin C-Loaded O/W Soybean Oil Microemulsion and Mitomycin C Solution Via Gamma Camera Imaging

Kotmakçı

Kantarcı

Aşıkoğlu

et al. 2013

Cancer Biotherapy and Radiopharmaceuticals

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In this study, a microemulsion system was evaluated for delivery of mitomycin C (MMC). To track the distribution of the formulated drug after intravenous administration, radiochemical labeling and gamma scintigraphy imaging were used. The aim was to evaluate a microemulsion system for intravenous delivery of MMC and to compare its in vivo behavior with that of the MMC solution. For microemulsion formulation, soybean oil was used as the oil phase. Lecithin and Tween 80 were surfactants and ethanol was the cosurfactant. To understand the whole body localization of MMC-loaded microemulsion, MMC was labeled with radioactive technetium and gamma scintigraphy was applied for visualization of drug distribution. Radioactivity in the bladder 30 minutes after injection of the MMC solution was observed, according to static gamma camera images. This shows that urinary excretion of the latter starts very soon. On the other hand, no radioactivity appeared in the urinary bladder during the 90 minutes following the administration of MMC-loaded microemulsion. The unabated radioactivity in the liver during the experiment shows that the localization of microemulsion formulation in the liver is stable. In the light of the foregoing, it is suggested that this microemulsion formulation may be an appropriate carrier system for anticancer agents by intravenous delivery in hepatic cancer chemotherapy.

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Free-radical Mechanisms in the Cytotoxic Action of Antitumour Antibiotics

Cited by 13 publications

References 3 publications

Cytotoxicity of a Novel Oil/Water Microemulsion System Loaded with Mitomycin‐C in In Vitro Lung Cancer Models

Cytotoxicity of a Novel Oil/Water Microemulsion System Loaded with Mitomycin‐C in In Vitro Lung Cancer Models

Intracellular Distribution and Intracellular Dynamics of a Spin-Labeled Analogue of Doxorubicin by Fluorescence and EPR Spectroscopy

Determination ofIn VivoBehavior of Mitomycin C-Loaded O/W Soybean Oil Microemulsion and Mitomycin C Solution Via Gamma Camera Imaging

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