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Free Radical Research Communications Volume 17, 1992 - Issue 6
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Original Article

Possible Reasons for Differences in Phototoxic Potential of 5 Quinolone Antibacterial Agents: Generation of Toxic Oxygen

Nobuhiko Wagai Developmental Research Laboratories, Daiichi Pharmaceutical Co., Ltd., 16-13, Kitakasai I-chome, Edogawa-ku, Tokyo, 134, Japan
&
Katsuhiko Tawara Developmental Research Laboratories, Daiichi Pharmaceutical Co., Ltd., 16-13, Kitakasai I-chome, Edogawa-ku, Tokyo, 134, Japan
Pages 387-398 | Received 15 Jun 1992, Accepted 21 Aug 1992, Published online: 07 Jul 2009

References

  • Halkin H. Adverse effects of the fluoroquinolones. Review on Infectious Disease 1988; 10: S258–S261, (Suppl. 1)
  • Wagai N., Tawara K. Quinolone induced cutaneous phototoxicity: Ear swelling reactions in Balb/c mice. Toxicology Letters 1991; 58: 215–223
  • Wagai N., Tawara K. Important roles of oxygen metabolites in quinolone antibacterial agent-induced cutaneous phototoxicity in mice. Archives of Toxicology 1991; 65: 495–499
  • Wagai N., Tawara K. Possible direct role of reactive oxygen species in the cause of mouse cutaneous phototoxicity induced by 5 quinolones. Archives of Toxicology 1992; 66: 392–397
  • Wagai N., Yamaguchi F., Sekiguchi M., Tawara K. Phototoxic potentials of quinolone antibacterial agents in Balb/c mice. Toxicology Letters 1990; 54: 299–308
  • Wagai N., Yamaguchi F., Tawara K., Onodera T. Studies on experimental conditions for detecting phototoxic potentials of drugs in Balb/c mice. Journal of Toxicological Sciences 1989; 14: 197–204
  • Baboir B. M., Kipnes R. S., Curnutte J. T. Biological defence mechanisms: The production by leukocytes of superoxide, a potential bacterial agent. Journal of Clinical Investigation 1973; 52: 741–744
  • Margoliash E., Frohwirt N. Spectrum of horse-heart cytochrome c. Biochemical Journal 1959; 71: 570–572
  • Wagai N., Hosoya T. Partial purification of estrogen dependent peroxidase of rat uterus and comparison of the properties with those other animal peroxidases. Journal of Biochemistry 1982; 91: 1931–1942
  • Hosoya T., Morrison M. The isolation and purification of thyroid peroxidase. Journal of Biological Chemistry 1967; 242: 2828–2836
  • Bors W., Michel C., Saran M. On the nature of biochemically generated hydroxyl radicals: Studies using the bleaching of p-nitrosodimethyl aniline as a direct assay method. European Journal of Biochemistry 1979; 95: 621–627
  • Athar M., Mukhtar H., Elmets C. A., Zaim M. T., Lloyd J. R., Bickers D. A. In situ evidence for the involvement of superoxide anions in cutaneous porphyrin photosensitization. Biochemical and Biophysical Research Communications 1988; 151: 1054–1059
  • Misra H. P., Fridovich I. Superoxide dismutase and oxygen enhancement of radiation lethality. Archives of Biochemistry and Biophysics 1986; 176: 577–581
  • Haschek W. M., Baer K. E., Rutherford J. E. Effect of dimethyl sulfoxide (DMSO) on pulmonary fibrosis in rats and mice. Toxicology 1989; 54: 197–205
  • Wasil M., Halliwell B., Grootveld M., Moorhouse C. P., Hutchison D. C.S., Baum H. The specificity of thiourea, dimethylthiourea and dimethyl sulfoxide as scavengers of hydroxyl radicals. Biochemical Journal 1987; 243: 867–870
  • Klebanoff S. J. Myeloperoxidase mediates cytotoxic system. The Reticuloendothelial System: A Comprehensive Treatise, A. J. Sbarra, R. Strauss. Plenum Publishing Corp, New York 1980; Vol. 2: 279–308
  • Kalyanaraman B., Suhnle P. G. Generation of free radical intermediates from foreign compounds by neutrophil-derived oxidants. Journal of Clinical Investigation 1985; 75: 1618–1622
  • Youngman R. J. Oxygen activation: Is the hydroxyl radical always biologically relevant. Trends in Biochemical Sciences 1983; 9: 280–283
  • Winterbourn C. C., Sutton H. C. Iron and xanthine oxidase catalyze formation of an oxidant species distinguishable from OH.: Comparison with the Haber-Weiss reaction. Archives of Biochemistry and Biophysica 1986; 244: 234
  • Kornhauser A., Wamer W., Giles A., Jr. Light-induced dermal toxicity: Effects on the cellular and molecular level. Dermatotoxicology, third edition, F. N. Marzulli, H. I. Maibach. Hemisphere Publishing Co, Washington 1987; 377–412
  • Moroi R., Kunino K., Konno T., Furukawa M., Kataoka K. Physicochemical properties and stability of ofloxacin. Kagaku Ryoho no Ryoiki 1989; 5: 1517–1528
  • Ferna E. B., Andez A. M., Cárdenas G., Martinez G. S. Phototoxicity from nalidixic acid: Oxygen dependent photohemolysis. Farmaco. Edizione Scientifica 1987; 42: 681–680
  • Fernández E. B., Cárdenas A. M.G. The mechanism of photohemolysis by photoproducts of nalidixic acid. Photochemistry and Photobiology 1990; B4: 329–333
  • Robertson D. G., Epling G. A., Kiely J. S., Bailey D. L., Song B. Mechanistic studies of the phototoxic potential of PD117596, a quinolone antibacterial compound. Toxicology and Applied Pharmacology 1991; 111: 221–232
  • Athar M., Elmets C. A., Bickers D. R., Mukhtar H. A novel mechanism for the generation of superoxide anions in hematoporphyrin derivative-mediated cutaneous photosensitization: Activation of the xanthine oxidase pathway. Journal of Clinical Investigation 1989; 83: 1137–1143
  • Grisham M. B., Hernandez L. A., Granger D. N. Xanthine oxidase and neutrophil infiltration in intestinal ischemia. American Journal of Physiology 1986; 251: G567–574
  • Fujii T., Furukawa H., Yoshida K., Miyazaki H., Hashimoto M. Disposition and metabolis of [14C]AT-2266, I. Single administration. Chemotherapy (Tokyo) 1984; 32: 117–135, (Suppl. 3)
  • Nagata O., Yamada T., Yamaguchi T., Okezaki E., Terasaki T., Tsuji A. Disposition and metabolism of NY-198, IV. Absorption, distribution and excretion of 14C-NY-198 in rats and dogs. Chemotherapy (Tokyo) 1988; 36: 151–173, (Suppl. 2)
  • Okazaki O., Kurata T., Hashimoto K., Sudo K., Tsumura M., Tachizawa H. Metabolic disposition of DL-8280, the second report: Absorption, distribution and excretion of 14C-DL-8280 in various animal species. Chemotherapy (Tokyo) 1984; 32: 1185–1202, (Suppl. 1)
  • Bergan T. Pharmacokinetics of fluorinated quinolones. The Quinolones, Andriole. Academic Press, London 1988; 119–154
  • Pascual A., Garcia I., Perea E. J. Fluorimetric measurement of ofloxacin uptake by human polymorphonuclear leukocytes. Antimicrobial Agents & Chemotherapy 1989; 33: 653–656

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