Effect of stobadine, U-74389G, trolox and melatonin on resistance of rat hippocampal slices to oxidative stress

Reactive oxygen species have been suggested to participate in the impairment of nervous tissue by oxidative stress, induced by hypoxia (HYP) followed by reoxygenation (ROX). Although the mechanisms of such injury are rather complex, antioxidants might exert some protective action under such circumstances. This study tested the effect of a series of compounds interfering with the generation and action of reactive oxygen species on impairment of synaptic transmission in the CA1 region of rat hippocampal slices exposed to HYP followed by ROX in vitro. Shortlasting HYP (typically 4.5-7.5 min under the conditions used) resulted in fast decay of the amplitude of population spikes evoked in the CA1 neurons by stimulation of Sch?ffer collaterals. The impairment was mostly irreversible. However, in the presence of the antioxidants stobadine, 21-aminosteroid U-74389G, melatonin and trolox (with optimal concentrations of 10-30 micromol/l, 10 micromol/l, 30-100 micromol/l and 200 micromol/l, respectively), the irreversible damage of the transmission was significantly diminished. The decay of the synaptic transmission failure during HYP was also delayed by stobadine, U-74389G and melatonin. The results demonstrated that compounds with antioxidant activity may effectively protect nervous tissue during HYP and ROX.     

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.     

Antioxidants prevented oxidative injury of SR induced by Fe2+/H2O2/ascorbate system but failed to prevent Ca2+-ATPase activity decrease

Dysfunction of sarcoplasmic reticulum (SR) Ca2+-ATPase induced by oxidative stress may be a contributing factor to the development of serious age related diseases. Incubation of sarcoplasmic reticulum (SR) vesicles of rabbit skeletal muscles with Fe2+/H2O2/ascorbate decreased the SH group content of SR approximately to 35% and Ca2+-ATPase activity to 50% of control not oxidized sample. Protein carbonyls increased twofold, lipid peroxidation was also significantly elevated. The antioxidant effects of trolox, the pyridoindole derivative stobadine and of the standardized extracts from bark of Pinus Pinaster PycnogenolR (Pyc) and from leaves of Ginkgo biloba (EGb 761) were studied on oxidatively injured SR. All antioxidants exerted preventive effects against the oxidized lipids and protein SH groups of SR vesicles. Trolox and stobadine did not influence protein carbonyl formation, while flavonoid extracts prevented carbonyl generation, probably by binding to protein. The preventive effects of the antioxidants studied on lipids and protein SH groups were however not associated with protection of Ca2+-ATPase activity. Stobadine and trolox exerted no effect on enzyme activity, Pyc and EGb 761 enhanced the inhibitory effect of Ca2+-ATPase activity in oxidatively injured SR. Concluding, under the conditions of oxidative stress induced by Fe2+/H2O2/ascorbate against SR of rabbit skeletal muscle, the agents studied demonstrated antioxidant effects yet failed to protect Ca2+-ATPase activity.     

The antioxidant behaviour of melatonin and structural analogues during lipid peroxidation depends not only on their functional groups but also on the assay system

There is no general agreement yet on the antioxidant effect of pineal indoles against lipid peroxidation. Accordingly, the main goal of the present work was to study the antioxidant activity of melatonin (MLT), N-acetylserotonin (NAS), 5-HO-tryptophan (5HO-TRP) and 5-methoxytryptamine (5MTP) in two different lipid systems with high content of polyunsaturated fatty acids (PUFAs): triglycerides (rich in 20:5 n-3, 22:6 n-3) dissolved in chloroform and sonicated liposomes made of retinal lipids (rich in 22:6 n-3). In the triglyceride-chloroform-system the peroxidation reaction was initiated by cumene hydroperoxide (CHP) whereas liposomes were peroxidized with Fe(2+). The techniques employed at the present work were: (1) TBARS production, (2) DPPH assay, (3) determination of conjugated dienes production and (4) analysis of fatty acid profile by GC-MS. Butylated hydroxytoluene (BHT) was employed as a reference because of its well known antioxidant capacity. Our results showed that MLT and 5MTP were unable to protect PUFAs against lipid peroxidation in both systems, whereas NAS and 5HO-TRP were better antioxidants that BHT in the triglyceride-system but ineffective in the liposome-system. We conclude that the antioxidant behaviour of pineal indoles depends not only on their functional groups but also on the assay system and could be explained by the polar paradox theory.     

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.     

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

Summary

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.     

Antioxidant activity of L-adrenaline: a structure-activity insight

L-adrenaline belongs to a group of the compounds known as catecholamines, which play an important role in the regulation of physiological process in living organisms. The antioxidant activity and antioxidant mechanism of L-adrenaline was clarified using various in vitro antioxidant assays including 1,1-diphenyl-2-picryl-hydrazyl (DPPH), 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) (ABTS), N,N-dimethyl-p-phenylenediamine (DMPD(+)), and superoxide anion radicals (O(2)(-)) scavenging activity, hydrogen peroxide (H(2)O(2)), total antioxidant activity, ferric ions (Fe(3+)) and cupric ions (Cu(2+)) reducing ability, ferrous ions (Fe(2+)) chelating activity. L-adrenaline inhibited 74.2% lipid peroxidation of a linoleic acid emulsion at 30 microg/mL concentration. On the other hand, butylated hydroxyanisole (BHA), butylated hydroxytoluene (BHT), alpha-tocopherol and trolox displayed 83.3, 82.1, 68.1 and 81.3% inhibition on the peroxidation of linoleic acid emulsion at the same concentration, respectively. BHA, BHT, alpha-tocopherol and trolox were used as reference antioxidants and radical scavenger compounds. Moreover, this study will bring an innovation for further studies related to antioxidant properties of L-adrenaline. According to present study, L-adrenaline had effective in vitro antioxidant and radical scavenging activity.     

Lipid peroxidation of phosphatidylcholine liposomes depressed by the calcium channel blockers nifedipine and verapamil and by the antiarrhythmic-antihypoxic drug stobadine

Nifedipine, verapamil and stobadine were tested and compared with butylated hydroxytoluene (BHT) as possible free radical scavengers inhibiting lipid peroxidation in phosphatidylcholine liposomes. Liposomes were peroxidized by incubation in air at 50 degrees C. Verapamil less than nifedipine less than BHT less than stobadine depressed the lipid peroxidation as detected spectroscopically for conjugate diene and thiobarbituric acid product formation. Verapamil and stobadine were tested as OH radical scavengers in a Fenton-type reaction against spin trap 5,5'-dimethyl-1-pyrroline-N-oxide (DMPO), as detected by ESR spectroscopy. The tested drugs competed with DMPO in trapping OH radicals, with stobadine being more effective than verapamil. ESR spectra of nifedipine in the incubated liposomes revealed that nifedipine could be involved in free radical reactions in the liposomes leading to nifedipine-stable radical(s) which were immobilized in the membrane. The obtained results suggest that some of the beneficial effects of the studied drugs can be mediated in disease by their ability to scavenge free radicals and by their protective effect on lipid peroxidation.     

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.     

Aggregation of human blood platelets in the presence of the pyridoindole stobadine

The antiarrhythmic and cardioprotective drug stobadine, possessing antioxidant and neuroprotective properties, was studied as to its in vitro effect on aggregation of human blood platelets. Pretreatment of platelets with stobadine for 30 s inhibited stimulated platelet aggregation in a dose-dependent way. Depending on the aggregation stimulus used, the minimal effective concentrations of the drug were 1 micromol/l (adrenaline), 200 micromol/l (ADP), and 1,000 micromol/l (PMA). Aggregation induced with thrombin or Ca2+-ionophore A23187 was not changed in the presence of stobadine even in the concentration of 1,000 micromol/l. Addition of stobadine 30 s after adrenaline was also effective and terminated aggregation (100 and 1,000 micromol/l) or prolonged onset of its second phase (10 micromol/l). The presented experiments showed stobadine as a potent inhibitor of adrenaline-induced aggregation, indicating its involvement in the observed antithrombotic and cytoprotective activity.     

Protection of endogenous beta-carotene in LDL oxidized by oxygen free radicals in the presence of supraphysiological concentrations of melatonin

This study was designed to evaluate the effect of high concentrations of melatonin on the peroxidation of human low density lipoproteins (LDLs) initiated by O(2)(*-) and ethanol-derived peroxyl radicals (RO(2)(*)) from water gamma radiolysis in the presence of ethanol. LDL (3 g/l; total LDL concentration) was oxidized in the absence of melatonin or in its presence at three concentrations (50 x 10(-6), 100 x 10(-6) or 250 x 10(-6) mol/l) in ethanol. Radiolytic yields (i.e. number of mole consumed or produced per Joule) of the markers of lipid peroxidation were determined (i.e. decrease in the endogenous antioxidants alpha-tocopherol and beta-carotene, formation of conjugated dienes and of thiobarbituric acid-reactive substances [TBARS]). Melatonin decreased the yields of lipid peroxidation products and delayed the onset of the propagation phase for conjugated dienes and TBARS in a concentration-dependent manner. Nevertheless, melatonin did not protect endogenous alpha-tocopherol against peroxyl-induced oxidation (probably due to a lower scavenging capacity than that of alpha-tocopherol towards peroxyl radicals), but delayed the consumption of LDL endogenous beta-carotene and decreased its rate of disappearance. The effect of melatonin seemed to be the highest for a melatonin concentration of 250 x 10(-6) mol/l.     

Mechanisms of iron-induced oxidative modifications of creatine kinase in rat brain in vitro. possible involvement of HNE

The model of oxidative stress induced by Fe/ascorbate in rat brain in vitro was used to compare the antioxidant capacity of known antioxidants. Creatine kinase (CK) was selected as a marker of protein injury in such studies. Of the antioxidant enzymes (catalase, superoxide dismutase), oxygen radical scavengers (mannitol, glutathione), and the chelator (EDTA) tested in this work and this system, only catalase and glutathione prevented the injury induced by oxidative stress, indicating that H2O2 and the glutathione peroxidase reaction were involved in the preventive effect. Additionally, the preventive effect of glutathione may be caused also by the fact that glutathione easily reacts with 4-hydroxynonenal (HNE), generated in rat brain homogenate, thus protecting CK from inactivation by this aldehyde. To find out whether and if at which concentrations CK may be oxidatively modified by HNE, pure CK was incubated in the presence of 10 and 64 micromol/l HNE for 30 min at 37 degrees C. The activity of CK incubated with HNE decreased significantly. Simultaneously, the protein carbonyls, determined by electrophoresis and immunoblotting increased at 10 micromol/l HNE or disappeared probably due to crosslinking of CK at 64 micromol/l HNE. The concentration of HNE in rat brain homogenates after oxidative stress was determined by HPLC and was in the range of 10-16 nmol/mg prot., corresponding to a concentration of 10-16 micromol/l HNE. This indicates that CK of rat brain homogenates oxidized by Fe/ascorbate may be impaired not only directly by oxygen radicals but also secondarily by HNE.     

Melatonin and N-acetyl serotonin inhibit selectively enzymatic and non-enzymatic lipid peroxidation of rat liver microsomes

Melatonin (N-acetyl-5-methoxytryptamine) and its immediate precursor N-acetyl serotonin in the metabolism of tryptophan are free radical scavengers that have been found to protect against non-enzymatic lipid peroxidation in many experimental models. By contrast, little is known about the antioxidant ability of these indoleamines against NADPH enzymatic lipid peroxidation. The light emission produced by rat-liver microsomes, expressed as total cpm during 180 min of incubation at 37 degrees C, was two-fold greater in the presence of ascorbate (0.4mM) when compared with NADPH (0.2 mM). Maximal peaks of light emission produced by microsomes lipid peroxidized with ascorbic-Fe(2+) or NADPH and expressed as cpm were 354,208 (at 60 min) and 135,800 (at 15 min), respectively. During non-enzymatic lipid peroxidation a decrease of total chemiluminescence (inhibition of lipid peroxidation) was observed when increasing concentrations of melatonin were added to liver microsomes. The protective effect was concentration-dependent. The inhibition observed in light emission was coincident with the protection of the most PUFAs. Preincubation of microsomes with N-acetyl serotonin reduced these changes very dramatically. Thus, in the presence of both antioxidants (0.36, 0.75, 1.5 mM), light emission percent inhibition during non-enzymatic (ascorbate-Fe(2+)) lipid peroxidation of rat liver microsomes was for melatonin: 6.12, 16.20, 34.88 and for N-acetyl serotonin: 85.10, 88.48, 84.4 respectively. The incubation of rat liver microsomes in the presence of NADPH (0.36, 0.75, 1.5 mM) produce a sudden increase of chemiluminescence that gradually increased and reached a maximal value at about 15 min; however, N-acetyl serotonin reduced these changes very efficiently.     

Antioxidant and radical scavenging properties of curcumin

Curcumin (diferuoyl methane) is a phenolic compound and a major component of Curcuma longa L. In the present paper, we determined the antioxidant activity of curcumin by employing various in vitro antioxidant assays such as 1,1-diphenyl-2-picryl-hydrazyl free radical (DPPH*) scavenging, 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) (ABTS) radical scavenging activity, N,N-dimethyl-p-phenylenediamine dihydrochloride (DMPD) radical scavenging activity, total antioxidant activity determination by ferric thiocyanate, total reducing ability determination by the Fe(3+)-Fe(2+) transformation method, superoxide anion radical scavenging by the riboflavin/methionine/illuminate system, hydrogen peroxide scavenging and ferrous ions (Fe(2+)) chelating activities. Curcumin inhibited 97.3% lipid peroxidation of linoleic acid emulsion at 15 microg/mL concentration (20 mM). On the other hand, butylated hydroxyanisole (BHA, 123 mM), butylated hydroxytoluene (BHT, 102 mM), alpha-tocopherol (51 mM) and trolox (90 mM) as standard antioxidants indicated inhibition of 95.4, 99.7, 84.6 and 95.6% on peroxidation of linoleic acid emulsion at 45 microg/mL concentration, respectively. In addition, curcumin had an effective DPPH* scavenging, ABTS*(+) scavenging, DMPD*(+) scavenging, superoxide anion radical scavenging, hydrogen peroxide scavenging, ferric ions (Fe(3+)) reducing power and ferrous ions (Fe(2+)) chelating activities. Also, BHA, BHT, alpha-tocopherol and trolox, were used as the reference antioxidant and radical scavenger compounds. According to the present study, curcumin can be used in the pharmacological and food industry because of these properties.     

Effects of melatonin on oxidative stress and spatial memory impairment induced by acute ethanol treatment in rats

Melatonin has recently been suggested as an antioxidant that may protect neurons from oxidative stress. Acute ethanol administration produces both lipid peroxidation as an indicator of oxidative stress in the brain and impairs water-maze performance in spatial learning and memory tasks. The present study investigated the effect of melatonin against ethanol-induced oxidative stress and spatial memory impairment. The Morris water maze was used to evaluate the cognitive functions of rats. Thiobarbituric acid reactive substances (TBARS), which are the indicators of lipid peroxidation, and the activities of antioxidative enzymes (glutathione peroxidase and superoxide dismutase) were measured in the rat hippocampus and prefrontal cortex which form interconnected neural circuits for spatial memory. Acute administration of ethanol significantly increased TBARS levels in the hippocampus. Combined melatonin-ethanol treatment caused a significant increase in glutathione peroxidase activities and a significant decrease of TBARS in the rat hippocampus. In the prefrontal cortex, there was only a significant decrease of TBARS levels in the combined melatonin-ethanol receiving group as compared to the ethanol-treated group. Melatonin did not affect the impairment of spatial memory due to acute ethanol exposure, but melatonin alone had a positive effect on water maze performances. Our study demonstrated that melatonin decreased ethanol-induced lipid peroxidation and increased glutathione peroxidase activity in the rat hippocampus.     

Melatonin and structural analogues do not possess antioxidant properties on Fe(2+)-initiated peroxidation of sonicated liposomes made of retinal lipids

Melatonin and its structural analogues display antioxidant activity in vivo but their activity in model membranes is not very well known. In this study, we have investigated the antioxidant capacity of melatonin and structural analogues on Fe²⁺-initiated peroxidation of sonicated liposomes made of retinal lipids. The indoleamines were evaluated against butylated hydroxitoluene (BHT) which was chosen as a reference standard because of its high antioxidant capacity. After the addition of Fe²⁺ as initiator of lipid peroxidation, quick production of conjugated dienes was observed. With addition of increasing concentrations of BHT the start of the reaction was delayed and initial reaction rates were lower. However, this reduction was not proportional to the increase in concentration. The start of the reaction and initial reaction rates were not modified in the presence of melatonin and its structural analogues. The formation of TBARS started immediately after the addition of Fe²⁺. The increase in the concentration of BHT avoided the emergence of TBARS. Changes were not observed in the presence of melatonin or structural analogues. Retinal lipids showed a high content of docosahexaenoic (22: 6 ^{Δ4,7,10,13,16,19}) acid, characteristic of this tissue. A little bit of that fatty acid was lost when sonicated liposomes were prepared with these retinal lipids. The polyunsaturated fatty acids (PUFAs) diminished significantly after incubation of liposomes with Fe²⁺ during 1 h. BHT preserved PUFAs whereas melatonin and its related indoleamines did not. These data reinforce the hypothesis that melatonin and structural analogues do not possess antioxidant properties per se in this liposomal model system.     

Effects of new antioxidant compounds PNU-104067F and PNU-74389G on antioxidant defense in normal and diabetic rats

Diabetes mellitus and its complications are associated with elevated oxidative stress, leading to much interest in antioxidant compounds as possible therapeutic agents. Two new classes of antioxidant compounds, the pyrrolopyrimidines and the 21-aminosteroids, are known to inhibit lipid peroxidation and other biomolecular oxidation. We hypothesized that in the presence of excess oxidants or the impaired antioxidant defense seen in diabetes mellitus, administration of antioxidants such as these may reverse the effects of diabetes on antioxidant parameters. This study measured the effects of subchronic (14 day) treatment with a pyrrolopyrimidine (PNU-104067F) or a 21-aminosteroid (PNU-74389G) in normal and diabetic Sprague-Dawley rats. Activity levels of superoxide dismutase, catalase, glutathione peroxidase, and glutathione reductase, concentrations of oxidized and reduced glutathione, and lipid peroxidation were used as measures of antioxidant defense in liver, kidney, heart, and brain tissue. In normal rats, the only effect was a 43% increase in cardiac lipid peroxidation after treatment with PNU-104067F. In diabetic rats, the only reversals of the effects of diabetes were a 30% decrease in hepatic glutathione peroxidase activity after PNU-74389G treatment and a 33% increase in cardiac glutathione disulfide concentration after PNU-104067F treatment. In contrast to these effects, increased cardiac glutathione peroxidase and catalase activities, increased brain glutathione peroxidase activity, increased hepatic lipid peroxidation, decreased hepatic glutathione content, and decreased hepatic catalase activity were seen in diabetic rats, reflecting an exacerbation of the effects of diabetes.     

Screening of antiradical and antioxidant activity of monodesmosides and crude extract from Leontice smirnowii tuber.

Leontice smirnowii is a member of the Berberidaceae family. In the current study we investigated the possible antiradical and antioxidant activity of the monodesmosides (MLS) and crude extract (CELS) of Leontice smirnowii using different antioxidant tests: 1,1-diphenyl-2-picryl-hydrazyl (DPPH) free radical scavenging, scavenging of superoxide anion radical-generated non-enzymatic system, ferric thiocyanate (FTC) method, reducing power, hydrogen peroxide scavenging and metal chelating activities. Experiment revealed that MLS and CELS have an antioxidant effect concentration-dependently. Total antioxidant activity was performed according to FTC method. At the 30mug/ml concentration, the inhibition effects of MLS and CELS on peroxidation of linoleic acid emulsion were found to be 95.3% and 95.6%, respectively. On the other hand, percentage inhibition of butylated hydroxyanisole (BHA), butylated hydroxytoluene (BHT), alpha-tocopherol and trolox were found to be 98.2%, 98.5%, 84.0% and 87.9% inhibition of peroxidation of linoleic acid emulsion, respectively, at the same concentration. In addition, MLS and CELS had effective DPPH radical scavenging, superoxide anion radical scavenging, hydrogen peroxide scavenging, reducing power and metal chelating activities. Also, these various antioxidant activities were compared with BHA, BHT, alpha-tocopherol and trolox which were accepted as references antioxidants.     

Ultraviolet-treated lipoproteins as a model system for the study of the biological effects of lipid peroxides on cultured cells. III. The protective effect of antioxidants (probucol, catechin, vitamin E) against the cytotoxicity of oxidized LDL occurs in two different ways

Comparison of the protective effect of three antioxidants (from three different chemical classes) against cell injury due to LDL oxidation, allowed us to clearly discriminate between two different lines of defence. The ultraviolet-induced lipid peroxidation of LDL was strongly inhibited by 10 mumol/l catechin and 25 mumol/l probucol, but only poorly by 100 mumol/l vitamin E. The ultraviolet-treated LDL protected by catechin or probucol (i.e. LDL irradiated by ultraviolet in the presence of effective concentrations of antioxidants inhibiting the lipid peroxidation) were much less 'cytotoxic' than unprotected ultraviolet-treated LDL. In contrast, LDL treated by ultraviolet in the presence of 100 mumol/l vitamin E were 'cytotoxic' similarly to unprotected LDL. The level of 'cytotoxicity' of LDL treated by ultraviolet in the presence of antioxidants (protected ultraviolet-treated LDL) was well correlated with their content in lipid peroxidation markers. Therefore these markers can be useful for predicting the 'cytotoxicity' of oxidized LDL and subsequently the protective effect of the tested antioxidants. The 'cytotoxicity' of unprotected ultraviolet-treated LDL (i.e. LDL irradiated by ultraviolet in the absence of exogenous antioxidant) can be effectively blocked by preincubation of the cells with antioxidants. Catechin (10 mumol/l) and vitamin E (100 mumol/l) are very effective cytoprotective agents, whereas probucol (up to 50 mumol/l) was completely ineffective under these experimental conditions. The cytoprotective effect of vitamin E was associated to a complete inhibition of the cellular TBARS formation induced by ultraviolet-treated LDL, whereas the cytoprotective effect of catechin was relatively independent on the TBARS inhibition. All these results showed that: (1) probucol (25 mumol/l) is very effective to prevent lipid peroxidation of LDL and their subsequent 'cytotoxicity', but it cannot protect cells against the 'cytotoxicity' of previously oxidized LDL; (2) vitamin E (100 mumol/l) prevents poorly the ultraviolet-induced lipid peroxidation of LDL, but is able to block simultaneously the cellular oxidative stress and the 'cytotoxicity' induced by previously oxidized LDL; and (3) catechin (10 mumol/l) exhibited two types of protective effects: it inhibits the lipid peroxidation of LDL (and their subsequent 'cytotoxicity') and very effectively protects the cells against 'toxicity' of previously oxidized LDL (with only little inhibition of the cellular oxidative stress).(ABSTRACT TRUNCATED AT 400 WORDS)     

Effect of stobadine on opsonized zymosan stimulated generation of reactive oxygen species in human blood cells

To predict more precisely the effect of stobadine, a pyridoindole antioxidant agent, in the whole organism, we studied its effect on opsonized zymosan-stimulated free radical generation in whole blood, on superoxide generation in the mixture of PMNL : platelets (1:50), as well as on superoxide generation and myeloperoxidase release in isolated PMNL. Without stimulation, stobadine had no effect on reactive oxygen species (ROS) generation and myeloperoxidase release. Stobadine in a concentration of 10 or 100 micromol/l significantly decreased luminol-enhanced chemiluminescence in opsonized zymosan-stimulated whole blood. In concentrations of 10 and 100 micromol/l, it reduced myeloperoxidase release from isolated neutrophils. Stobadine significantly decreased superoxide generation in isolated neutrophils in 100 micromol/l concentration. Its effect was much less pronounced in the mixture of neutrophils and platelets in the ratio close to physiological conditions (1:50). Our results suggest that stobadine might exert a beneficial effect in diseases or states where superfluous ROS generation could be deleterious.