Abstract
Many compounds have the potential to cause oxidative stress in erythrocytes and are potentially harmful in susceptible individuals. Increased risk of adverse reactions is generally due to a genetic defect in one or more erythrocytic enzymes and/or haemoglobin. Administration of such drugs to enzymatically compromised individuals can cause serious haemolytic episodes with a resultant anaemia. The mechanism of haemolysis is a consequence of the system used to induce the stress, and in many cases, it is not well defined. This paper reviews the pathways which protect against oxidative damage, the effects of oxidative stress in the erythrocyte and the mechanisms for some compounds capable of causing such stress.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Apostoli P, Romeo L, De Matteis MC et al. (1988) Effects of lead on red blood cell membrane proteins. Int Arch Occup Environ Health 61:71–75
Babson JR, Abell NS, Reed DJ (1981) Protective role of the glutathione redox cycle against adriamycin-mediated toxocity in isolated hepatocytes. Biochem Pharmacol 30:2299–2304
Bender E (1969) Drug-induced hemolytic anaemia. Pharmacol Rev 21:73–103
Beyer W, Imlay J, Fridovich I (1991) Superoxide dismutase. Prog Nucleic Acid Res Mol Biol 40:221–253
biaglow JE, Varnes ME, Epp ER et al. (1989) Role of glutathione and other thiols in cellular response to radiation and drugs. Drug Metab Rev 20:1–12
Burton GW, Ingold KU (1983) Mechanisms of antioxidant action. Studies on vitamin E and related antioxidants in biological systems. In: McBrien DCH, Slater TF (eds) Protective agents in cancer. Academic Press, London, New York, pp 81–99
Campbell GD, Steinberg MH, Bower JD (1975) Ascorbic acid induced hemolysis in G6PD deficiency. Ann Intern Med 82 810 (letter)
Canessa M (1984) The polymorphism of erythrocyte Na and K transport in essential hypertension: findings, controversies and perspectives. In: Krukeberg WC, Eaton JW, Aster J, Brewer GJ (eds) Erythrocyte membranes 3: Recent clinical and experimental advances. AR Liss, New York, pp 293–313
Cathcart RF (1991) A unique function for ascorbate. Med Hypoth 35J:32–37
Christopher MM (1989) Relation of endogenous Heinz bodies to disease and anemia in cats: 120 cases. J Am Vet Med Assoc 1089–1095.
Christopher MM, Boussard JD, Peterson ME (1994) Heinz body formation associated with ketoacidosis in diabetic cats. J Vet Int Med 9:24–31
Clemens MR, Waller HD (1987) Lipid peroxidation in erythrocytes. Chem Phys Lipids 45:251–268
Coleman MD, Tingle MD, Hussain F et al. (1991) An investigation into the haematological toxicity of structural analogues of dapsone in-vivo and in-vitro. J Pharm Pharmacol 43:779–784
Corbucci GC (1990) The role of reduced glutathione during the course of acute haemolysis in glucose-6-phosphate dehydrogenase deficient patients: clincial and pharmacodynamic aspects. Int J Clin Pharmacol Res X:305–310
Cross CW (moderator) (1987) Oxygen radicals and human disease (Davis Conference). Ann Intern Med 107:526–545
Deiss A, Lee GR, Cartwright GE (1970) Haemolytic anaemia in Wilson's disease. Ann Intern Med 73:413–418
Dickerson RE, Geis I (1983) Hemoglobin structure and function. In: Dickerson RE, Geis I, (eds) Hemoglobin: structure, function, evolution and pathology, Benjamin/Cummings, Menlo Park, California, pp 19–60
DiGuiseppi J, Fridovich I (1984) The toxicology of molecular oxygen. Crit Rev Toxicol 12:315–342
Easley JL, Condon BF (1974) Phenacetin-induced methaemoglobinaemia and renal failure. Anaesthesiology 41:99–100
Fernandes A, Mira ML, Azevedo MS et al. (1988) Mechanisms of haemolysis induced by copper. Free Radic Res Commun 4:291–298
Fletcher KA, Burton PF, Kelly JA (1988) Studies on the mechanisms of oxidation in the erythrocyte by metabolites of primaquine. Biochem Pharmacol 37:2683–2690
Flohe L, Gunzler WA, Ladenstein R (1976) Glutathione peroxidase. In: Arias M, Jakoby WB (eds) Glutathione: metabolism and function. Raven Press, New York, p 115–138
Gaetani GF, Baliano S, Canepa L, et al. (1989) Catalase and glutathioine peroxidase are equally active in detoxification of hydrogen peroxide in human erythrocytes. Blood 73:334–339
Gant TW, Cohen GM (1987) Reactions of glutathione or amino acids with quinones forming semiquinone radicals. In: Rice-Evans C (ed) Free radicals, oxidant stress and drug action. Richelieu Press, London, pp 377–397
Goldberg B, Stern A (1977) The role of the superoxide anion as a toxic species in the erythrocyte. Arch Biochem Biophys 178:218–225
Goldman M, Ali M (1991) Wilson's disease presenting as Heinz-body hemolytic anemia. Can Med Assoc J 145:971–972
Gordon-Smith ED (1980) Drug-induced oxidative haemolysis. Clin Haematol 9:557–586
Haest CW (1982) Interactions between membrane skeleton proteins and the intrinsic domain of the erythrocyte membrane. Biochim Biophys Acta 694:331–352
Halliwell B (1981) Free radicals, oxygen toxicity and aging. In: Sohal RS (ed) Age pigments. Elsevier/North-Holland, New York, Amsterdam, pp 1–62
Halliwell B, Gutteridge JMC CE (1992) Free radicals antioxidants and human disease: where are we now? J Lab Clin Med 119:598–620
Handa H, Sato S (1975) Generation of free radicals of quinone groupcontaining anti-cancer chemicals in NADPH-microsome system as evidenced by imitation of sulfite oxidation. Gann 66:43–47
Harman D (1988) Free radicals in aging [Review]. Mol Cell Biochem 84:155–161
Harris JW, Kellermeyer RW (eds) (1970) Erythrocyte metabolism and methemoglobinemia. In: the erythrocyte. Production, metabolism, destruction: normal and abnormal. Harvard University Press, Cambridge, MA, pp 447–513
Harrison JH, Jollow DJ (1986) Role of aniline metabolites in anilineinduced haemolytic anaemia. J Pharmacol Exp Ther 238:1045–1054
Hermes-Lima M, Pereira B, Bechara EJ (1991) Are free radicals involved in lead poisoning? Xenobiotica 21:1085–1090
Hohl RJ, Kennedy EJ, Frischer H (1991) Defenses against oxidation in human erythrocytes: role of glutathione reductase in the activation of glucose decarboxylation by hemolytic drugs. J Lab Clin Med 117:325–331
Hornsby PH, Crivello JF (1983) The role of lipid peroxidation and biological antioxidants in the function of the adrenal cortex. Part 1: a background review. Mol Cell Endocrinol 30:1–20
Imai K, Matsura M, Furukawa H et al. (1975) [Oxidant-drug induced hemolytic anemia in dogs]. Folia Pharmacol Jpn 71:691–707. (English abstract)
Itano HA, Matteson JL (1982) Mechanism of initial reaction of phenylhydrazine with oxyhaemoglobin and effect of ring substitutions on the biomolecular rate constant of this reaction. Biochemistry 21:2421–2426
Jain NC (1986) Hemolytic anemias of noninfectious origin. In: Veterinary hematology, Philadelphia, Lea and Febiger, pp 634–640
Jandl JH (1991) Haemolytic anaemias. In: Blood pathophysiology, Blackwell Scientific, Boston, pp 145–181
Jobore A, Minocherhomjee AM, Villalobo A et al. (1984) Active calcium transport in normal and abnormal human erythrocytes. In: Krukeberg WC, Eaton JW, Aster J, Brewer GJ (eds) Erythrocyte membranes 3: recent clinical and experimental advances. AR Liss, New York, pp 243–292
Kakkar P, Mehrotra S, Viswanathan PN (1992) Interrelation of active oxygen species, membrane damage and altered calcium functions. Mol Cell Biochem 111:11–15
Kappus H, Sies H (1981) Toxic drug effects associated with oxygen metabolism: redox cycling and lipid peroxidation. Experientia 37:1233–1241
Klimek J, Schaap AP, Kimura R (1983) Effects of paraquat on cytochrome P450 dependent lipid peroxidation in bovine adrenal cortex mitochondira. Biochim Biophys Act 752:127–136
Kosower EM, Kosower NS (1976) Functional aspects of glutathione disulfide and hidden forms of glutathione. In: Arias JM, Jakoby WB (eds) Glutathione: metabolism and function. Raven Press, New York, pp 159–174
Kosower EM, Kosower NS (1978) The glutathione status of cells. Int Rev Cytol 54:109–160
Kumar KS, Rowse C, Hochstein P (1978) Copper-induced generation of superoxide in human erythrocyte membranes. Biochem Biophys Res Commun 83:587–592
Labbe RF (1990) Lead poisoning mechanisms. Clin Chem 36:1870 (letter).
Lachant NA, Tomada A, Tanaka KR (1984) Inhibition of the pentose phosphate shunt by lead: a potential mechanism for haemolysis in lead poisoning. Blood 63:518–524
Link CM, Theoharides AD, Anders JC et al. (1985) Structure activity relationships of putative primaquine metabolites causing methaemoglobin formation in canine haemolysates. Toxicol Appl Pharmacol 81:192–202
Luzatto L (1989) Inherited haemolytic anaemias. In: Hoffbrand AB, Lewis SM (eds) Postgraduate haematology, William Heineman Medical, London, pp 146–182
Machlin LJ, Bendich A (1987) Free radicals tissue damage: protective role of antioxidant nutrients. FASEB J 1:441–445
Magnani M, Rossi L, Bianchi M et al. (1988a) Role of hexokinase in the regulation of erythrocyte hexose monophosphate pathway under oxidative stress. Biochem Biophys Res Commun 155:423–428
Magnani M, Rossi L, Cucchiarini L et al. (1988b) Effect of phenylhydrazine in red blood cell metabolism. Cell Biochem Funct 6:175–182
Marchesi VT (1985) Stabilising infrastructure of cell membranes. Ann Rev Cell Biol 1:531–561
Marik T, Brabec V, Kodicek M et al. (1988) Pyruvate kinase-deficiency anemia: membrane approach. Biochem Med Metab Biol 39:55–63
Mason RP (1982) Free-radical intermediates in the metabolism of toxic chemicals. In: Pryor WA (ed) Free radicals in biology, Vol 5. Academic Press, New York, pp 161–222
Meredith MJ, Reed DJ (1983) Depletion in vitro of mitochondrial glutathione in rat hepatocytes and enhancement of lipid peroxidation by adriamycin and 1,3 bis(2-chloroethyl)-1-nitrosurea (BCNU). Biochem Pharmacol 32:1383–1388
Metz EN, Balcerzak SP, Sagone AL Jr (1976) Mechanisms of methylene blue stimulation of the hexose monophosphate shunt in erythrocytes. J Clin Invest 58:797–802
Misra HP, Fridovich I (1976) The oxidation of phenylhydrazine: superoxide and mechanism. Biochemistry 15:681–687
Moore MR (1988) Haematological effects of lead. Sci Total Enviro 71:419–431
Muliawan H, Scheulen ME, Kappus H (1982) Adriamycin stimulates only the iron ion-induced, NADPH-dependent microsomal alkane formation. Biochem Pharmacol 31:3147–3150
Munday R, Smith BL, Fowke EA (1991) Haemolytic activity and nephrotoxicity of 2-hydroxy-1,4-naphthoquinone in rats. J Appl Toxicol 11:85–90
Nowak D, Peasecka B, Antczak A et al. (1991) Effect of ascorbic acid on hydroxyl radical generation by chemical, enzymatic and cellular systems. Importance for antioxidant prevention of pulmonary emphysema. Biomed Biochim Acta 50:265–272
Ortiz de Montellano PR, Kunze KL (1981) Formation of N-phenylheme in the haemolytic reaction of phenylhydrazine with haemoglobin. Am Chem Soc 103:6534–6536
Pagliuca A, Mufti GJ, Baldwin D et al. (1990) Lead poisoning: clinical, biochemical, and haematological aspects of a recent outbreak. J Clin Pathol 43:277–281
Poot M (1991) Oxidants and antioxidants in proliferative senescence. Mutat Res 256:177–189
Pryor WA (1982) Free radical biology: xenobiotics, cancer and aging. Ann NY Acad Sci 393:1–22
Raes M, Michiels C, Remacle J (1987) Comparative study of the enzymatic defense systems against oxygen-derived free radicals: the key role of glutathione peroxidase. Free Radic Biol Med 3:3–7
Rice-Evans CM (1990) Erythrocytes, oxygen radicals and cellular pathology. In: Das DK, Essman WB (eds) Oxygen radicals: systemic events and disease. Karger, Basel, pp 1–30
Ringenberg QS, Doll DC, Patterson WP et al. (1988) Haematologic effects of heavy metal poisoning. South Med J 81:1132–1139
Ross D, Thor H, Threadgill MD et al. (1986) The role of oxidative processes in the cytotoxicity of substituted 1,4-naphthoquinones is isolated hepatocytes. Arch Biochem Biophys 248:460–466
Ryan TP, Aust SD (1992) The role of iron in oxygen-mediated toxicities. Crit Rev Toxicol 22:119–141
Salhany JM, Swanson JC, Cordes KA et al. (1978) Evidence suggesting direct oxidation of human erythrocyte membrane sulphydryls by copper. Biochem Biophys Res Commun 82:1294–1299
Scott AI (1967) Proceedings of the European Society for the study of Drug Toxicity. Drug Toxicity 9:185
Slater TF (1992) Lipid peroxidation. Biochem Soc Trans 10:70–71
Slater TF (1984) Free-radical mechanisms in tissue injury. Biochem J 222:1–15
Smith RP, Olson MV (1973) Drug-induced methemoglobinemia. Seminar Hematol 10:253–268
Southorn PA, Powis G (1988a) Free radicals in medicine. 1. Chemical nature and biologic reactions [review]. Mayo Clin Proc 63:381–389
Southorn PA, Powis G (1988b) Free radicals in medicine. II. Involvement in human disease [review]. Mayo Clin Proc 63:390–408
Srivastava SK, Bender E (1969) The transport of oxidised glutathione from human erythrocytes. J Biol Chem 244:9–16.
Sullivan SG, Stern A (1984) The protective role of methemoglobin in erythrocytes exposed to oxidative stress. Life Chem Rep Suppl 2:348–352
Taketa F, Smits MR, DiBona FJ et al. (1967) Studies on cat hemoglobin and hybrids with human hemoglobin A. Biochemistry 6:3809–3816
Tanner AR, Bantock I, Hinks L et al. (1986) Depressed selenium and vitamin E levels in an alcoholic population. Possible relationship to hepatic injury through increased lipid peroxidation. Dig Dis Sci 31:1307–1312
Trotta RJ, Sullivan SG, Stern A (1983) Lipid peroxidation and haemoglobin degradation in red blood cells exposed to t-butyl hydroperoxide. Biochem J 212:759–772
Weiss DJ, McClay CB, Christopher MM et al. (1990) Effects of propylene glycol-contianing diets on acetaminophen-induced methemoglobinemia in cats. J Am Vet Med Assoc 196:1816–1819
Williamson P, Schlegel JR (1984) Maintenance of phospholipid asymmetry and its role in erythrocyte pathology. In: Krukeberg WB, Eaton JW, Aster J, Brewer GJ (eds) Erythrocyte membranes 3: recent clinical and experimental advances. A R Liss, New York, pp 123–126
Witting LA, (1980) Vitamin E and lipid antioxidants in free-radicalinitiated reactions. In: Pryor WA (ed) Free radicals in biology, Vol 4. Academic Press, New York, London, pp 295–319
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Edwards, C.J., Fuller, J. Oxidative Stress in Erythrocytes. Comp Haematol Int 6, 24–31 (1996). https://doi.org/10.1007/BF00368098
Issue Date:
DOI: https://doi.org/10.1007/BF00368098