Novel quercetin derivatives in treatment of peroxynitrite-oxidized SERCA1.

Sarco/endoplasmic reticulum calcium ATP-ase (SERCA) is regulated by low concentrations of peroxynitrite and inhibited by high levels, as indicated in human diseases. We studied quercetin (Q) and its novel derivatives monochloropivaloylquercetin (MPQ) and chloronaphthoquinonequercetin (CHQ) as agents with expected preventive properties against peroxynitrite-induced SERCA impairment. Q and MPQ protected the SERCA1 against peroxynitrite induced activity decrease, while CHQ potentiated the inhibitory effect of peroxynitrite. Quercetin derivatives were found to be weaker antioxidants compared with Q, as indicated by their ability to scavenge peroxynitrite and prevent of SERCA1 carbonylation, both decreasing in the order (Q > MPQ > CHQ). Quantum-chemical values of theoretical parameter E HOMO also indicated lower antioxidant capacities for MPQ and CHQ. Prooxidant properties estimated by calculations of frontier molecular orbitals (E LUMO) correlated with experimentally determined SH-group decrease induced by the compounds studied. Both methods showed a decrease of prooxidant properties as follows: CHQ > MPQ > Q. In addition, experimentally measured half-wave potentials indicated stronger prooxidant properties of quercetin derivatives as compared to Q. More expressive alterations of conformation in the transmembrane region of SERCA1 induced by quercetin derivatives, as compared with Q, may at least partially correlate with their higher lipophilicities. The protective effects of Q and MPQ on different isoforms of SERCA activity may be useful in prevention and treatment of inflammation or muscle diseases. The inhibitory effect of CHQ on SERCA isoforms may be beneficial in therapeutic approaches aimed at anti-tumor treatment.

The role of Nrf2 and PPARgamma in the improvement of oxidative stress in hypertension and cardiovascular diseases.

Reactive oxygen species are an important element of redox regulation in cells and tissues. During physiological processes, molecules undergo chemical changes caused by reduction and oxidation reactions. Free radicals are involved in interactions with other molecules, leading to oxidative stress. Oxidative stress works two ways depending on the levels of oxidizing agents and products. Excessive action of oxidizing agents damages biomolecules, while a moderate physiological level of oxidative stress (oxidative eustress) is necessary to control life processes through redox signaling required for normal cellular operation. High levels of reactive oxygen species (ROS) mediate pathological changes. Oxidative stress helps to regulate cellular phenotypes in physiological and pathological conditions. Nrf2 (nuclear factor erythroid 2-related factor 2, NFE2L2) transcription factor functions as a target nuclear receptor against oxidative stress and is a key factor in redox regulation in hypertension and cardiovascular disease. Nrf2 mediates transcriptional regulation of a variety of target genes. The Keap1-Nrf2-ARE system regulates many detoxification and antioxidant enzymes in cells after the exposure to reactive oxygen species and electrophiles. Activation of Nrf2/ARE signaling is differentially regulated during acute and chronic stress. Keap1 normally maintains Nrf2 in the cytosol and stimulates its degradation through ubiquitination. During acute oxidative stress, oxidized molecules modify the interaction of Nrf2 and Keap1, when Nrf2 is released from the cytoplasm into the nucleus where it binds to the antioxidant response element (ARE). This triggers the expression of antioxidant and detoxification genes. The consequence of long-term chronic oxidative stress is activation of glycogen synthase kinase 3beta (GSK-3beta) inhibiting Nrf2 activity and function. PPARgamma (peroxisome proliferator-activated receptor gamma) is a nuclear receptor playing an important role in the management of cardiovascular diseases, hypertension and metabolic syndrome. PPARgamma targeting of genes with peroxisome proliferator response element (PPRE) has led to the identification of several genes involved in lipid metabolism or oxidative stress. PPARgamma stimulation is triggered by endogenous and exogenous ligands - agonists and it is involved in the activation of several cellular signaling pathways involved in oxidative stress response, such as the PI3K/Akt/NOS pathway. Nrf2 and PPARgamma are linked together with their several activators and Nrf2/ARE and PPARgamma/PPRE pathways can control several types of diseases.

[Multi-marker approach in the diagnostics of cardiac diseases by protein biochip technology]. / Multianalytový prístup k diagnostice srdecních chorob technologií proteinových biocipu.

BACKGROUND: Multi-marker approach is recommended for rapid diagnostics and risk stratification of acute coronary syndrome. We tested the analytical performance of protein biochip technology for determination cardiac markers. METHODS: Analysis of cardiac markers: CK-MB mass, cTnl, myoglobin, glycogen phosphorylase BB (GPBB), heart type of fatty acid binding protein (h-FABP) and carbonic anhydrase III (CAIII) was performed by system Evidence Investigator (Randox). Analytical parameters of Cardiac array were tested. The Evidence Investigator results were compared with Elecsys 2010 (Roche) CK-MB mass and myoglobin methods. Markers of myocardial injury were determined in 28 blood donors, 28 patients with acute myocardial infarction diagnosis and 21 patients after chemotherapy containing anthracyclines (monitoring of cardiotoxicity). RESULTS: The Passing-Bablok regression shows statistically significant differences in results. The reasons for these differences are poor standardization of methods and discrepancies between calibrations. New substances h-FABP and GPBB are promising early markers of acute myocardial infarction and diagnostic sensitivity of h-FABP would be better than myoglobin test. These markers can be useful for monitoring of cardiotoxicity of anthracyclines. CONCLUSIONS: In future, the use of biochip technology in cardiology diagnostic represents an important challenge but it is a necessary standardization of immunochemical methods.

[Biomarkers of myocardial ischemia and necrosis in 2008]. / Biomarkery ischemie a nekrózy myokardu v roce 2008.

In the review article, the authors present current knowledge of biomarkers of myocardial ischemia and necrosis. They comment new definition of myocardial infarction resulted as consensus of European Society of Cardiology and American Heart Association. They added clinically interested data about routinely used cardiomarkers (cardiac troponins and creatinkinase). At the second part, the authors focused on new biomarkers (fatty acids binding proteins, ischemia-modified albumin, glycogen phosphorylase isoenzyme BB) and its significance in diagnosis of myocardial ischemia/necrosis and their prognostic significance. Some of new promising molecules are discussed in the last part of the article.

Effect of some antioxidants on sarcoplasmic reticulum Ca2+-ATPase activity from rabbit skeletal muscle.

OBJECTIVES: Effects of phenolic antioxidants, synthetized (trolox, pyridoindole stobadine) and plant extracts (EGb 761 and Pycnogenol) were investigated on the activity of Ca(2+)-ATPase from sarcoplasmic reticulum (SR) of rabbit skeletal muscle to examine their potency to modulate the activity of this calcium level regulating enzyme. METHODS: SR vesicles and pure Ca(2+)-ATPase were isolated by ultracentrifugation. Ca(2+)-ATPase activity was measured spectrophotometrically by enzyme-coupled assay. RESULTS: Pycnogenol (Pyc) significantly decreased the activity of Ca(2+)-ATPase incorporated into SR vesicles as well as the activity of purified Ca(2+)-ATPase, the latter with respect to both enzyme substrates, Ca(2+) and ATP. Trolox, stobadine and EGb 761 did not influence significantly the activity SR- vesicle incorporated or pure Ca(2+)-ATPase, the latter with respect to either substrate, in spite of alterations of kinetic parameters in some cases. CONCLUSIONS: The decrease of SR Ca(2+)-ATPase activity induced by Pyc may be associated with its proapoptotic and anticancerogenic properties.

The combined effect of pycnogenol with ascorbic acid and trolox on the oxidation of lipids and proteins.

Pycnogenol (PYC), a procyanidin-rich extract of French maritime pine bark (Pinus pinaster) has strong antioxidant potential and promotes cellular health. The aim of this study was to investigate a possible cooperation of natural antioxidant PYC with synthetic antioxidants ascorbic acid and trolox in the model system of lipid peroxidation determined as conjugated dienes formation in liposomes and on the oxidation of proteins (in BSA and plasma proteins) determined as protein carbonyls. The present study shows that PYC and trolox significantly increased inhibition of lipid peroxidation initiated by copper acetate and tert-butylhydroperoxide in concentration and time dependence compared with untreated unilamellar liposomes. PYC and trolox added simultaneously to the oxidized liposomes exerted an additive preventive effect. PYC s inhibitory effect on formation of carbonyl compounds in BSA and plasma proteins, oxidized by two oxidative systems--H2O2/FeSO4 and HOCl, were studied in co-operation with other synthetic antioxidants--ascorbic acid and trolox. We found the synergistic or additive effect of PYC with mentioned antioxidants.

Oxidative damage to Ca2+-ATPase sarcoplasmic reticulum by HOCl and protective effect of some antioxidants.

Injury of rabbit skeletal sarcoplasmic reticulum (SR) induced by hypochlorous acid (HOCl) was studied. HOCl inhibited Ca2+-ATPase activity in a concentration-dependent manner (IC50=100 micromol/l). The concentration of 13.5 micromol/l HOCl reduced the level of sulfhydryl (SH) groups by 50%, yet it did not influence the enzyme activity. In comparison with SH group oxidation and enzyme activity inhibition, a significantly longer time was necessary for the generation of protein carbonyls in SR injured by HOCl. Protective effects of some antioxidants (stobadine, trolox, EGb 761, Pycnogenol) were studied in SR oxidatively injured by HOCl. Trolox and EGb 761 exerted a protective effect on ATPase activity and on SH groups of SR oxidatively modified by HOCl. Stobadine and Pycnogenol inhibited markedly protein carbonyl formation. Stobadine was the only antioxidant able to scavenge HOCl. In conclusion, the protective effects of antioxidants against decrease of Ca2+-ATPase activity induced by HOCl might be caused by protection of SH groups. The compounds with both antioxidant and Ca2+-ATPase protecting effect offer dual defense against tissue damage occurring, e.g. in aging process.

Exploring oxidative modifications of tyrosine: an update on mechanisms of formation, advances in analysis and biological consequences.

Protein oxidation is increasingly recognised as an important modulator of biochemical pathways controlling both physiological and pathological processes. While much attention has focused on cysteine modifications in reversible redox signalling, there is increasing evidence that other protein residues are oxidised in vivo with impact on cellular homeostasis and redox signalling pathways. A notable example is tyrosine, which can undergo a number of oxidative post-translational modifications to form 3-hydroxy-tyrosine, tyrosine crosslinks, 3-nitrotyrosine and halogenated tyrosine, with different effects on cellular functions. Tyrosine oxidation has been studied extensively in vitro, and this has generated detailed information about the molecular mechanisms that may occur in vivo. An important aspect of studying tyrosine oxidation both in vitro and in biological systems is the ability to monitor the formation of oxidised derivatives, which depends on a variety of analytical techniques. While antibody-dependent techniques such as ELISAs are commonly used, these have limitations, and more specific assays based on spectroscopic or spectrometric techniques are required to provide information on the exact residues modified and the nature of the modification. These approaches have helped understanding of the consequences of tyrosine oxidation in biological systems, especially its effects on cell signalling and cell dysfunction, linking to roles in disease. There is mounting evidence that tyrosine oxidation processes are important in vivo and can contribute to cellular pathology.

Human low density lipoprotein as a target of hypochlorite generated by myeloperoxidase.

The aim of this study was to further clarify which part of human low density lipoprotein (LDL) is attacked by the MPO/H2O2/Cl- -system and which reactive oxygen species is responsible for the attack. Therefore the influence of this system on the modification of the lipid and protein moiety of LDL was studied in vitro. Using the monochlorodimedone assay it was found that HOCl is produced in micromolar quantities in the absence of LDL and is rapidly consumed by LDL in a concentration dependent manner. The consumption of HOCl was reflected in the formation of HOCl-specific epitopes on apo B-100 as determined by an antibody raised against HOCl-modified LDL. The absorbency at 234 nm was applied to measure continuously the extent of modification of LDL. The general kinetic pattern of the absorbency measurement consisted of a lag phase where no LDL modification was observed, followed by a rapid increase of absorbency and a plateau phase. Finally the absorbency decreased due to LDL precipitation. Time dependent absorption spectra indicated that this kinetic pattern is mainly caused by light scattering due to particle aggregation rather than by a specific absorption at 234 nm due to conjugated diene formation. In agreement with this finding a low rate of thiobarbituric acid reactive substances (TBArS) formation was observed after a lag phase. The aggregation of LDL occurs most likely by modification of apo B-100, which was determined fluorimetrically in terms of LDL-tryptophan destruction in presence of the MPO/H2O2/Cl(-)-system. The kinetic course of tryptophan fluorescence generally consisted of a rapid decrease leveling off into a low plateau phase. Gas chromatographic determinations of linoleic acid in LDL in presence of the MPO system showed that this polyunsaturated fatty acid (PUFA) is easily attacked by HOCl. Consistent with this finding NMR spectra of HOCl modified LDL indicated a complete disappearance of bis-allylic methylene groups. Since lipid peroxidation products only partially account for this loss of PUFAs, other reactions of HOCl with unsaturated lipids--probably chlorohydrin formation--must be involved. Summarizing, although the rate of lipid peroxidation is low, both the lipid and the protein moiety of LDL are readily modified by the MPO system. It appears that the immediate consequence of apo B-100 modification is its aggregation. It is concluded that MPO, which has been detected in atherosclerotic lesions, is able to contribute to the modification of LDL into a form recognizable for uncontrolled uptake by macrophages.

Mechanisms of hippocampal reoxygenation injury. Treatment with antioxidants.

The effects of hypoxia of different durations (8, 12 or 15 min) and of subsequent reoxygenation were studied in rat hippocampal slices by measuring enzyme activities related to oxidative stress: superoxide dismutase (SOD), cytochrome c oxidase and lactate dehydrogenase (LDH). Simultaneously the degree of lipid peroxidation was estimated by measuring conjugated dienes (CD). Reoxygenation after 8-min of hypoxia induced general cell injury indicated by increased LDH activity. Reoxygenation after 12-min of hypoxia started lipid peroxidation assessed by an increase in CD, and after 15-min of hypoxia followed by reoxygenation CD were found to be significantly decreased, suggesting lipid degradation. The injury induced by a hypoxia of 12 min and reoxygenation was reduced by SOD and catalase, indicating that oxygen radicals were involved in this process. The oxygen radicals originating from the xanthine/xanthine oxidase system, from the synthesis of prostaglandins, as well as from the mitochondrial respiratory chain, since allopurinol, indomethacin and rotenone decreased while antimycin increased reoxygenation injury. An increase in ATP may also have been involved as cyanide, an inhibitor of ATP synthesis, decreased the reoxygenation injury. The chain-breaking antioxidants trolox, alpha tocopherol and the pyridoindole stobadine were effective in preventing reoxygenation injury, indicating the involvement of lipid peroxidation in this process.

Effect of stobadine on Cu(++)-mediated oxidation of low-density lipoprotein.

The pyridoindole derivative stobadine [(-)-cis-2,8-dimethyl-2,3,4,4a,5,9b-hexahydro-1H-pyrido(4,3b) indole] has been described as a drug with antihypoxic and antiarrhythmic cardioprotective properties. The antioxidative properties of this compound were studied during Cu(++)-mediated low-density lipoprotein (LDL) oxidation. Stobadine (concentration 0-5 microM) prolonged the lag phase (in min produced by one molecule antioxidant per LDL particle) as measured by diene formation more effectively than did ascorbate, trolox, or alpha-tocopherol. It also has the ability to decrease the rate of diene formation during the propagation phase very efficiently. Diene formation, Trp destruction, and alpha-tocopherol consumption were measured in the presence and absence of stobadine. Stobadine (10 microM) did not influence tocopherol consumption during oxidation and the Trp fluorescence quenching of Cu++ was not influenced by this compound. From these results, as well as polarographic measurements, we conclude that the antioxidative effect of stobadine is not simply a result of Cu(++)-ion complexation. In contrast to ascorbate, this compound is stable in the presence of Cu++. Stobadine inhibits the oxidation of LDL-Trp residues very efficiently via its radical scavenging properties, and may even have the ability to reduce Trp radicals to tryptophan. The concentration of stobadine used for LDL oxidation was in the range found in plasma (stobadine given p.o. in human and rats results in plasma concentrations between 0.2-3.9 microM.

Effect of stobadine on lipid peroxidation in brain and heart after ischemia and reperfusion of the brain.

Stobadine (ST), a novel drug with pyridoindol structure, was recently found to prevent reperfusion injury in rat brain. The aim of the present study was to reveal whether ST may prevent peroxidative changes in the heart and brain that were triggered by postischemic reperfusion of the brain. In the brain, reperfusion significantly increased the contents of malondialdehyde (MDA) by 43.8% and conjugated diens (CD) by 24.5% when compared with the end of ischemia. In the heart, contents of MDA and CD in reperfusion became elevated three fold and by 41.7%, respectively, when comparing to the values at the end of ischemia. In the heart, no significant changes in activities of the superoxide dismutase (SOD) and glutathione peroxidase (GPx) induced by ischemia or reperfusion were detected. In contrast, reperfusion induced a slight decrease in GPx activity in the brain. In accordance with our previous results, an application of ST (2 mg/kg) to the femoral artery shortly prior to reperfusion of the ischemic brain, prevented significantly MDA and CD accumulation in brain. Nevertheless, ST was not able to prevent the brain-ischemia/reperfusion-induced elevation of MDA and CD contents in the heart.

The crocin assay for the determination of relative rate constants of alkoxyl radical reactions with the pyridoindole stobadine and with other antioxidants.

The water-soluble carotenoid crocin is bleached in aqueous solutions by tert-butyloxy radicals (t-BuO(.)) photolytically generated from tert-butyl hydroperoxide. Crocin bleaching as measured at 440 nm can be competitively inhibited by antioxidants. This method therefore allows the determination of the relative reaction rates of these compounds with the t-BuO(.) radicals. In this test system the scavenging effect of the pyridoindole stobadine, a new antioxidant with potential for the treatment of tissue injury caused by oxidative stress, was compared with other known antioxidants. Generally good agreement was observed in two different approaches for the evaluation of the experimental data. The relative rate constants of the antioxidants tested increased in the order: stobadine, chlorpromazine, isoascorbic acid, trolox, ascorbic acid. Since it has been shown previously that stobadine can scavenge alkoxyl radicals also in a non-polar environment, this antioxidant property may be important in the inhibition of lipid peroxidation.

Interaction of the pyridoindole stobadine with alkoxyl and stable free radicals.

Stobadine, a pyridoindole derivative which has been synthesized in search of new antiarrhytmic drugs, was able to interact with alpha-diphenyl-beta-picrylhydrazyl (DPPH(.)) a stable free radical. Its scavenging potential was in the same order of magnitude as that of well known strong antioxidants. The scavenging effect of antioxidants tested increased in the order: stobadine, ascorbic acid, trolox, cysteine. Stobadine exerted a scavenging effect also towards alkoxyl radicals in a nonpolar solvent in the canthaxantin bleaching test. In this test stobadine was more effective than trolox.

An improved method for the sensitive monitoring of low density lipoprotein modification by myeloperoxidase.

The aim of this investigation was to compare an improved fluorometric method with an UV absorbance assay for their ability to monitor low density lipoprotein (LDL) modification by myeloperoxidase (MPO) and to evaluate determining factors influencing the modification of LDL. Using absorbance at 234 nm to study the kinetics of LDL aggregation, and a native fluorescence assay for protein oxidation, we found that all components of the MPO/H2O2/Cl- system may have rate determining effects on LDL modification. While the lipoprotein modification rate correlated positively with enzyme concentration, variation of the concentration of H2O2 had a biphasic effect on the maximal rate of LDL modification with both methods. Furthermore, a positive association was found between the maximal rate of LDL modification and the acidity of the medium, with a pathophysiologically relevant optimal rate at a slightly acidic pH of 5-6, but hardly any modification above pH 6.8. In summary, both methods provide simple and useful tools for the continuous monitoring of LDL modification by the MPO/H2O2/Cl- system, but the more sensitive fluorometric method is preferable, since it allows the application of experimental conditions which are much closer to the situation in vivo.

Antioxidant activity of the pyridoindole stobadine in liposomal and microsomal lipid peroxidation.

Stobadine, a pyridoindole derivative, is an efficient inhibitor of lipid peroxidation in phosphatidylcholine liposomes and in rat liver microsomes treated with iron/ADP/NADPH as pro-oxidant. Accumulation of thiobarbituric acid-reactive substances (TBARS) or low-level chemiluminescence were taken as a measure of lipid peroxidation and 5 microM stobadine doubled the duration of the lag phase preceding the onset of rapidly increasing chemiluminescence. Inhibition of lipid peroxidation was not observed with tocopherol-deficient microsomes, suggesting that the antioxidant effect of stobadine depends on vitamin E in the membrane. The cis(-) isomer was most effective, with the cis(+) and trans(rac) as well as dehydro- or acetyl derivatives being less active. In liposomes, the presence of reductant (NADPH or ascorbate) protects from the loss of stobadine.

"Nucleolar test" as a system for screening and analysis of immunosuppressive activity of chemical and biological agents.

The numbers and nucleolar activity of lymphocytes were followed in the control and SRBC-stimulated popliteal lymph nodes following administration of known immunosuppressive agents of different classes which were given in doses effective in the Jerne test and graft-versus-host reaction. Immunosuppressive agents had a non-selective effect on different lymphocyte populations (characterized by the activity of nucleolar RNA synthesis) in the control, antigen-untreated lymph nodes, but had a marked inhibitory effect on lymphocytes with compact nucleoli in the antigen-stimulated lymph nodes. This decrease is in good correlation with suppression of the Jerne haemolytic plaques and GVHR. The nucleolar test as a simple technique appears to be adequate for a rapid screening of immunosuppressive activity of the chemical and biological agents.

Immunosuppressive properties of the antibiotics cytostipin and vermiculine.

The properties of two antibiotics, cytostipin isolated from Penicillium stipitatum and vermiculine isolated from Penicillium vermiculatum, were examined in two systems for a rapid screening of current immunosuppressive agents [nucleolar test determining the degree of RNA synthesis in nucleoli of individual lymphocyte populations, and the reactivity of mouse lymphocytes to "T" (PHA) and "B" (LPS) mitogens]. Both antibiotics, distinctly suppressed the increase in number of "active" lymphocytes with compact nucleoli in the popliteal lymph node activated by SRBC. Incorporation of 3H-uridine into PHA-stimulated "T" lymphocytes was suppressed by both antibiotics, incorporation into LPS-stimulated "B" lymphocytes was inhibited by cytostipin but stimulated by vermiculine. The antibiotics were also tested in another two "classic" immune systems, the Jerne test and the GVH reaction. Both antibiotics in doses markedly inhibitory for GVH reaction did not suppress but significantly increased the number of the haemolytic plaques in spleens of SRBC-immunized mice.

Comparison of the effects of carbisocaine and other local anesthetics on 32P incorporation into individual and total phospholipids in synaptosomes.

The aim of the paper was to study the effect of carbisocaine, a new local anesthetic with high liposolubility on incorporation of 32P into individual and total phospholipids and to compare its effect with that of other local anesthetics (procaine, lidocaine, cinchocaine, heptacaine). Carbisocaine decreased 32P incorporation into neutral phospholipids and increased the incorporation into acid phospholipids, presumably by inhibiting phosphatidate phosphohydrolase, similarly as reported for other anesthetics (Brindley and Bowley 1975). The increased incorporation of 32P into phosphatidylserine induced by carbisocaine suggests that this phospholipid is also synthetised from phosphatidic acid. At low concentrations, the local anesthetics studies were found to increase 32P incorporation into total phospholipids, whereas at high concentrations they reduced 32P incorporation. This biphasic effect is in agreement with the incorporation of 14C from glucose into lipids (Lassánová et al. 1984) and with the effect of cinchocaine on glycerol incorporation into phospholipids (Allan and Michell 1975), suggesting that local anesthetics affect de novo synthesis of phosphatidic acid. Carbisocaine increased 32P incorporation into phospholipids, in concentrations lower by several orders of magnitude as compared to the other local anesthetics studied. A rough correlation was observed between the concentrations at which the local anesthetics showed stimulatory effect on 32P incorporation, and the average effective concentrations of the respective anesthetics. No such correlation could be found for carbisocaine.

Preventive effect of several antioxidants after oxidative stress on rat brain homogenates.

Brain homogenate was used as a model system to study antioxidant properties of several natural and synthetic antioxidants under oxidative stress. Oxidative stress was induced by Fe/ascorbate system and lipid peroxidation as well as protein modification were studied. Thiobarbituric acid reactive substances (TBARS) were used as a marker of lipid peroxidation. The preventive effect concerning lipid peroxidation decreased in the order: buthylated hydroxytoluene (BHT) (3.5), stobadine (ST) (35), serotonin (54), trolox (98), U 74389G (160), melatonin (3100), (the numbers in the brackets represent IC50 in micromol/l). Methylprednisolone had no effect, and spin traps interfered with TBARS determination. Concerning creatine kinase (CK) activity as a selected marker of oxidative modification of proteins, the preventive effect of antioxidants (30 micromol/l) decreased in the order: BHT (30), trolox (75), stobadine (ST) (77), alpha-phenyl-N-tert-buthylnitrone (PBN) (87), sodium salt of N-tert-buthyl-C-(phenyl-2-sulfone) nitrone (SPBN) (90), (the numbers in the brackets represent the loss of CK activity in percentages, when 100% was the loss of CK activity in the absence of any antioxidant). The nonglucocorticoid steroid U 74389G, methylprednisolone and serotonin had no preventive effects, while melatonin had antioxidant effect only in a higher concentration (1 mmol/l).