Advanced search
Publication Cover
International Journal of Radiation Biology and Related Studies in Physics, Chemistry and Medicine Volume 48, 1985 - Issue 6
Journal homepage
9
Views
8
CrossRef citations to date
0
Altmetric
Original Article

Electrolytic Reduction of Nitroheterocyclic Drugs Leads to Biologically Important Damage in DNA

M.V.M. Lafleur Physics Laboratory of the Vrije Universiteit, Department of Biophysics, de Boelelaan 1081, 1081 HV, Amsterdam, The Netherlands
,
A. Zahoor Chemotherapy Research Unit, Department of Paramedical Science, North East London Polytechnic, Romford Road, London, E15 4LZ, U.K.
,
R.C. Knight Physics Laboratory of the Vrije Universiteit, Department of Biophysics, de Boelelaan 1081, 1081 HV, Amsterdam, The Netherlands
,
E.J. Pluijmackers-Westmijze Chemotherapy Research Unit, Department of Paramedical Science, North East London Polytechnic, Romford Road, London, E15 4LZ, U.K.
,
H. Loman Physics Laboratory of the Vrije Universiteit, Department of Biophysics, de Boelelaan 1081, 1081 HV, Amsterdam, The Netherlands
&
D.I. Edwards Chemotherapy Research Unit, Department of Paramedical Science, North East London Polytechnic, Romford Road, London, E15 4LZ, U.K.
Pages 917-925 | Received 07 Mar 1985, Accepted 17 Jun 1985, Published online: 03 Jul 2009

References

  • Asquith J.C., Watts M.E., Smithen C.E., Adams G.E. Electron affinic sensitization. Part 5. Radiosensitization of hypoxic bacterial and mammalian cells in vitro by some nitroimidazoles and nitropyrazoles. Radiation Research 1974; 60: 108–118
  • Baas P.D., Teerstra W.R., Van Mansveld A.D.M., Jansz H.S. Construction of viable and lethal mutations in the origin of bacteriophage φ174 using synthetic oligodeoxyribonucleotides. Journal of Molecular Biology 1981; 152: 615–639
  • Blok J., Luthjens L.H., Roos A.L.M. The radiosensitivity of bacteriophage DNA in aqueous solution. Radiation Research 1967; 30: 468–482
  • Chapman J.D., Franko A.J., Sharplin J. A marker for hypoxic cells in tumours with potential clinical applicability. British Journal of Cancer 1981; 43: 546–550
  • Chapman J.D., Baer K., Lee J. Characteristics of the metabolism-induced binding of misonidazole to hypoxic mammalian cells. Cancer Research 1983; 43: 1523–1528
  • De Jong J., Loman H., Blok J. Host-cell reactivation of φ174 RF-DNA damaged by γ-ray-induced phenylalanine- and water-radicals. International Journal of Radiation Biology 1972; 22: 579–587
  • Durand R.E., Olive P.L. Evaluation of nitroheterocyclic radiosensitizers using spheroids. Advances in Radiation Biology 1981; 9: 75–107
  • Edwards D.I., Knox R.J., Knight R.C. Structure-cytotoxicity of nitroimidazoles in an in vitro system. Chemical Modification: Radiation and Cytotoxic Drugs, R.M. Sutherland. Pergamon Press, New York 1982; 791–793, International Journal of Radiation, Oncology, Biology and Physics, 8, 791–793.
  • Franko A.J., Chapman J.D., Koch C.J. Binding of misonidazole to EMT6 and V79 spheroids. International Journal of Radiation, Oncology, Biology and Physics 1982; 8: 737–739
  • Franko A.J., Koch C.J. Binding of misonidazole to V79 spheroids and fragments of dunning rat prostatic and human colon carcinomas in vitro: diffusion of oxygen and reactive metabolites. International Journal of Radiation, Oncology, Biology and Physics 1984; 10: 1333–1336
  • Gattavecchia E., Tonelli D., Breccia A., Roffia S. The production of nitrite from radiolytic, photolytic and electrolytic degradation of metronidazole. International Journal of Radiation Biology 1982; 42: 105–109
  • Gattavecchia E., Tonelli D., Fuochi P.G. Electrochemical and pulse radiolysis study of misonidazole and its azo and azoxy derivatives. International Journal of Radiation Biology 1984; 45: 469–477
  • Guthrie G.D., Sinsheimer R.L. Observations on the infection of bacterial protoplasts with the deoxyribonucleic acid of bacteriophage φ174. Biochimica et Biophysica Acta 1963; 72: 290–297
  • Hall E.J., Roizin-Towle L. Hypoxic sensitizers: Radiobiological studies at the cellular level. Radiology 1975; 117: 453–457
  • Hanawalt P.C., Cooper P.K., Ganesan A.K., Smith C.A. DNA repair in bacteria and mammalian cells. Annual Review of Biochemistry 1979; 48: 783–836
  • Knight R.C., Skolimowski I.M., Edwards D.I. The interaction of reduced metronidazole with DNA. Biochemical Pharmacology 1978; 27: 2089–2093
  • Knox R.J., Knight R.C., Edwards D.I. Misonidazole induced thymidine release from DNA. Biochemical Pharmacology 1981; 30: 1925–1929
  • Knox R.J., Knight R.C., Edwards D.I. Studies on the action of nitroimidazole drugs: The products of nitroimidazole reduction. Biochemical Pharmacology 1983; 32: 2149–2156
  • Knox R.J., Edwards D.I., Knight R.C. The mechanism of nitroimidazole damage to DNA: Coulometric evidence. International Journal of Radiation Oncology, Biology and Physics 1984; 10: 1315–1318
  • Lafleur M.V.M., Loman H., Blok J. On the role of phosphate in the irradiation of DNA in aqueous solutions. International Journal of Radiation Biology 1976; 27: 197–200
  • Lafleur M.V.M., Woldhuis J., Loman H. Alkali-labile sites and post-irradiation effects in gamma-irradiated biologically active double-stranded DNA in aqueous solution. International Journal of Radiation Biology 1979; 36: 241–247
  • Lafleur M.V.M., Woldhuis J., Loman H. Some characteristics of apurinic sites in single- and double-stranded biologically active φ174 DNA. Nucleic Acid Research 1981; 9: 6591–6599
  • Lafleur M.V.M., Pluijmackers-Westmijze E.J., Loman H. Contrasting effects of cytochrome c on the radiosensitivity of single-stranded φ174 DNA in the presence of misonidazole or phenol under anoxia. International Journal of Radiation, Oncology, Biology and Physics 1984; 10: 1195–1197
  • Lafleur M.V.M., Pluijmackers-Westmijze E.J., Loman A.C., Loman H. Adduct formation is involved in radiosensitization, mediated by cytochrome c, of φ174 DNA by misonidazole. International Journal of Radiation Biology 1985; 47: 379–382
  • LaRusso N.F., Tomasz M., Müller M., Lipman R. Interaction of metronidazole with nucleic acids in vitro. Molecular Pharmacology 1977; 13: 872–882
  • Lindahl T., Nyberg B. Rate of depurination of native deoxyribonucleic acid. Biochemistry 1972; 11: 3610–3618
  • Lutgerink J.T., Retel J., Loman H. Effects of adduct formation on the biological activity of single- and double-stranded φ174 DNA, modified by N-acetoxy-N-acetyl-2-aminofluorene. Biochimica et Biophysica Acta 1984; 781: 81–91
  • Mason R.P. Free-radical intermediates in the metabolism of toxic chemicals. Free Radicals in Biology, W.A. Pryor. Academic Press, New York 1982; 5: 161–169
  • McClelland R.A., Fuller J.R., Seaman N.E., Rauth A.M., Battistella R. 2-Hydroxylaminoimidazoles-unstable intermediates- in the reduction of 2-nitroimidazoles. Biochemical Pharmacology 1984; 33: 303–309
  • Miller G.G., Ngan-Lee J., Chapman J.D. Intracellular localization of radioactively labelled misonidazole in EMT6 tumour cells in vitro. International Journal of Radiation, Oncology, Biology and Physics 1982; 8: 741–744
  • Moore B.A., Palcic B., Skarsgard L.D. Radiosensitizing and toxic effects of the 2-nitroimidazole Ro-07-0582 in hypoxic mammalian cells. Radiation Research 1976; 67: 459–473
  • Nabben F.J., Lafleur M.V.M., Sikkers J.C.M., Loman A.C., Retèl J., Loman H. Repair of damage in double-stranded φ174 (RF) DNA due to radiation-induced water-radicals. International Journal of Radiation Biology 1984; 45: 379–388
  • Rauth A.M., Mcclelland R.A., Michaels H.B., Battistella R. The oxygen dependence of the reduction of nitroimidazoles in a radiolytic model system. International Journal of Radiation, Oncology, Biology and Physics 1984; 10: 1323–1326
  • Rowley D.A., Knight R.C., Skolimowski I.M., Edwards D.I. The effect of nitroheterocyclic drugs on DNA: an in vitro model of cytotoxicity. Biochemical Pharmacology 1979; 28: 3009–3013
  • Skolimowski I.M., Knight R.C., Edwards D.I. Molecular basis of chloramphenicol and thiamphenicol toxicity to DNA in vitro. Journal of Antimicrobial Chemotherapy 1983; 12: 535–542
  • Varghese A.J., Whitmore G.F. Binding to cellular macromolecules as a possible mechanism for the cytotoxicity of misonidazole. Cancer Research 1980; 40: 2165–2169
  • Varghese A.J., Whitmore G.F. Modification of guanine derivatives by reduced 2-nitroimidazoles. Cancer Research 1983; 43: 78–82
  • Varghese A.J., Whitmore G.F. Detection of a reactive metabolite of misonidazole in hypoxic mammalian cells. Radiation Research 1984; 97: 262–271
  • Wardman, P. Lifetimes of the radical-anions of medically-important nitroaryl compounds in aqueous solution. Life Science Reports, in the press, 1985

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.