References
- Halliwell B., Gutteridge J. M. C. Free Radicals in Biology and Medicine. Clarendon Press, Oxford 1989; 2nd edn
- Weiss S. J. Tissue destruction by neutrophils. New England Journal of Medicine 1989; 320: 365–376
- Halliwell B., Cross C. E., Gutteridge J. M. C. Free radicals, antioxidants and human disease. Where are we now?. Journal of Laboratory and Clinical Medicine 1992; 119: 598–620
- Wasil M., Halliwell B., Moorhouse C. P. Scavenging of hypochlorous acid by tetracycline, rifampicin and some other antibiotics: a possible antioxidant action of rifampicin and tetracycline?. Biochemical Pharmacology 1987; 37: 775–778
- Cantin A., Woods D. E. Protection by antibiotics against myeloperoxidase-dependent cytotoxicity to lung epithelial cells in vitro. Journal of Clinical Investigation 1993; 91: 38–45
- Gunther M. R., Mao J., Cohen M. S. Oxidant-scavenging activities of ampicillin and sulbactam and their effects on neutrophil functions. Anti microbiol Agents and Chemotherapy 1993; 37: 950–956
- Lagercrantz C. Formation of aminoxyl radicals in the reaction between penicillins and hydrogen peroxide. Free Radical Biology and Medicine 1992; 13: 455–457
- Mathy-Hartert M., Deby-Dupont G., Deby C., Jadoul L., Vandenberghe A., Larry M. Cytotoxicity towards human endothelial cells, induced by neutrophil myeloperoxidase: protection by ceftazidime. Mediators of Inflammatory 1995; 4: 437–443
- Beckman J. S., Chen J., Ischiropoulos H., Crow J. P. Oxidative chemistry of peroxynitrite. Methods in Enzymology 1994; 233: 229–240
- Darley-Usmar V., Wiseman H., Halliwell B. Nitric oxide and oxygen radicals: a question of balance. FEBS Letters 1995; 369: 131–135
- Pryor Vein W.A., Squadrito G. L. The chemistry of peroxynitrite: a product from the reaction of nitric oxide with super oxide. American Journal of Physiology 1995; L699–L722
- Moncada S., Higgs A. The L-arginine-nitric oxide pathway. New England Journal of Medicine 1993; 329: 2002–2012
- Haddad I. Y., Pataki G., Hu P., Galliani C., Beckman J. S., Matalon S. Quantitation of nitrotyrosine levels in lung sections of patients and animals with acute lung injury. Journal of Clinical Investigation 1994; 94: 2407–2413
- Beckman J. S., Zu Ye Y., Anderson G., Chen J., Accavitti M. A., Tarpey M. M., White C. R. Extensive nitration of protein tyrosines in human atherosclerosis detected by immuno-histochemistry. Biological Chemistry Hoppe Seyler 1994; 375: 81–88
- Kaur H., Halliwell B. Evidence of nitric oxide-mediated oxidative damage in chronic inflammation. FEBS Letters 1994; 350: 9–12
- Rachmilewitz D., Stamler J. S., Karmeli F., Mullins M. E., Singel D. J., Loscalzo J., Xavier R. J., Podelsky D. K. Peroxynitrite-induced rat colitis—a new model of colonic inflammation. Gastroenterology 1993; 105: 1681–1688
- Huie R. E., Padmaja S. The reaction of NO with superoxide. Free Radical Research Communications 1993; 18: 195–199
- Ischiropoulos H., Zhu L., Chen J., Tsai M., Martin J. C., Smith C. D., Beckman J. S. Peroxynitritemediated tyrosine nitration catalysed by superoxide dismutase. Archives of Biochemistry and Biophysics 1992; 298: 431–437
- Kong S. B., Yim M. B., Stadtman E. R., Chock P. B. Peroxynitrite disables the tyrosine phosphorylation regulatory mechanism by nitrating the tyrosine residue: tyrosine kinase fails to phosphorylate nitrated tyrosine. FASEB Journal 1995; AI303: (abstract)
- Moreno J. J., Pryor W. A. Inactivation of α1 antiproteinase inhibitor by peroxynitrite. Chemical Research in Toxicology 1992; 5: 425–431
- Whiteman M., Kaur H., Halliwell B. Protection against peroxynitrite dependent tyrosine nitration and α1-antiproteinase inactivation by some anti-inflammatory drugs and by the antibiotic tetracycline. Annals of Rheumatic Disease 1996; 55: 383–387
- Whiteman M., Halliwell B. Protection against peroxynitrite-dependent tyrosine nitration and α1 antiproteinase inactivation by ascorbic acid. A comparison with other biological antioxidants. Free Radical Research 1996; 55: 383–387
- Evans P. J., Cecchini R., Halliwell B. Oxidative damage to lipids and α1-antiproteinase by phenylbutazone in the presence of haem proteins. Protection by ascorbic acid. Biochemical Pharmacology 1992; 44: 981–984
- Chidwick K., Winyard P. G., Zhang Z., Farrell A. J., Blake D. R. Inactivation of the elastase inhibitory capacity of α1-antitrypsin in fresh samples of synovial fluid from patients with rheumatoid arthritis. Annals of Rheumatic Disease 1991; 50: 915–916
- van der Vliet A, Eiserich J. P., O'Neill C. A., Halliwell B., Cross C. E. Tyrosine modification by reactive nitrogen species. A closer look. Archives of Biochemistry and Biophysics 1995; 319: 341–349
- Greenwald R. A., Moak S. A., Ramamurthy N. S., Golub L. M. Tetracyclines suppress matrix metalloproteinase activity in adjuvant arthritis and in combination with flurbiprofen, ameliorate bone damage. Journal of Rheumatology 1992; 19: 927–938
- Pruzanski W., Greenwald R. A., Street I. P., Laliberte F., Stefanski E., Vadas P. Inhibition of enzymatic activity of phospholipases A2 by minocycline and doxycycline. Biochemical Pharmacology 1992; 44: 1165–1170
- Yu L. P., Jr., Smith G. N., Hasty K. A., Brandt K. D. Doxycycline inhibits type XI collagenolytic activity of extracts from human osteoarthritic cartilage and of gelatinase. Journal of Rheumatology 1991; 18: 1450–1452
- Wan G. J., Gutteridge J. M. C. DNA base damage by β-lactam, tetracycline, bacitracin and rifamycin antibacterial antibiotics. Biochemical Pharmacology 1991; 42: 1595–1599
- Quinlan G. J., Gutteridge J. M. C. Bacitracin and a bacitracin-zinc complex damage DNA and carbohydrate in the presence of iron and copper salts. Free Radical Research Communications 1989; 7: 37–44
- Buschfort C., Witte I. Induction and mechanism of DNA single- and double-strand breaks by tetracycline/Cu (II) in the absence of light. Carcinogenesis 1994; 15: 2927–2930
- Swain J. A., Darley-Usmar V., Gutteridge J. M. C. Peroxynitrite releases copper from caeruloplasmin: implications for atherosclerosis. FEBS Letters 1994; 342: 49–52
- Uppu R. M., Squadrito G. L., Pryor W. A. Accelerations of peroxynitrite oxidations by carbon dioxide. Archives of Biochemistry and Biophysics 1996; 327: 335–343