Competitive and seasonal oxidative stress in elite alpine ski racers.

We investigated competitive- and long-term oxidative stress during a competition season in eight top-ranked members of the Austrian Men's Alpine Ski Team. Serum total peroxides, antibody titers against oxidized LDL (oLAb) and lag time of the degradation of the fluorophore 1-palmitoyl-2-((2-(4-(6-phenyl-trans-1,3,5-hexatrienyl)phenyl)ethyl)-carbonyl)-sn-glycero-3-phosphocholine were measured, along with plasma concentrations of ascorbate, alpha- and gamma-tocopherol, beta-carotene, uric acid and the lipid status. Competitive stress was indicated through an increased post-race uric acid level (286 +/- 50 microM pre-race vs 456 +/- 77 microM post-race, P<0.001) in December. Long-term effects were already apparent in November, with the highest concentrations of total peroxides (680 +/- 458 microM H(2)O(2) equivalents vs December 47 +/- 58 microM H(2)O(2) equivalents and January 15 +/- 28 microM H(2)O(2) equivalents, P<0.001) and a concomitant decrease in oLAb titers with an antibody trough in December (439 +/- 150 mU/mL vs baseline 1036 +/- 328 mU/mL; P=0.003). In January, after recovery, they attained nearly pre-season levels of oxidative stress biomarkers. This study indicates midseason oxidative stress in top-level skiers, which was associated with the performance in these athletes.

The Genome Austria Tissue Bank (GATiB).

In the context of the Austrian Genome Program, a tissue bank is being established (Genome Austria Tissue Bank, GATiB) which is based on a collection of diseased and corresponding normal tissues representing a great variety of diseases at their natural frequency of occurrence from a non-selected Central European population of more than 700,000 patients. Major emphasis is put on annotation of archival tissue with comprehensive clinical data, including follow-up data. A specific IT infrastructure supports sample annotation, tracking of sample usage as well as sample and data storage. Innovative data protection tools were developed which prevent sample donor re-identification, particularly if detailed medical and genetic data are combined. For quality control of old archival tissues, new techniques were established to check RNA quality and antigen stability. Since 2003, GATiB has changed from a population-based tissue bank to a disease-focused biobank comprising major cancers such as colon, breast, liver, as well as metabolic liver diseases and organs affected by the metabolic syndrome. Prospectively collected tissues are associated with blood samples and detailed data on the sample donor's disease, lifestyle and environmental exposure, following standard operating procedures. Major emphasis is also placed on ethical, legal and social issues (ELSI) related to biobanks. A specific research project and an international advisory board ensure the proper embedding of GATiB in society and facilitate international networking.

Effects of elderberry juice on fasting and postprandial serum lipids and low-density lipoprotein oxidation in healthy volunteers: a randomized, double-blind, placebo-controlled study.

BACKGROUND: In a recent pilot study, the intake of elderberry juice resulted in a significant decrease in serum cholesterol concentrations and an increase in low-density lipoprotein (LDL) stability. This study was designed to verify the preliminary results. OBJECTIVE: We investigated the impact of elderberry juice on cholesterol and triglyceride concentrations as well as antioxidant status in a cohort of young volunteers. DESIGN: Study A: The randomized, placebo-controlled trial for studying the effect of anthocyanes on lipid and antioxidant status, 34 subjects took capsules with 400 mg spray-dried powder containing 10% anthocyanes t.i.d. equivalent to 5 ml elderberry juice for 2 weeks. A subgroup of 14 subjects continued for an additional week to test for resistance to oxidation of LDL. Study B: To investigate the short-term effects on serum lipid concentrations, six subjects took a single dose of 50 ml of elderberry juice (equivalent to 10 capsules) along with a high-fat breakfast. RESULTS: In the placebo-controlled study, there was only a small, statistically not significant change in cholesterol concentrations in the elderberry group (from 199 to 190 mg/dl) compared to the placebo group (from 192 to 196 mg/dl). The resistance to copper-induced oxidation of LDL did not change within 3 weeks. In the single-dose experiment increases in postprandial triglyceride concentrations were not significantly different when the six subjects were investigated with and without elderberry juice. CONCLUSIONS: Elderberry spray-dried extract at a low dose exerts a minor effect on serum lipids and antioxidative capacity. Higher, but nutritionally relevant doses might significantly reduce postprandial serum lipids.

Lipid peroxidation and antioxidant status in professional American football players during competition.

BACKGROUND: Oxidative stress occurs during strenuous physical exercise, perhaps as a result of increased consumption of oxygen. MATERIALS AND METHODS: In this study, different markers of oxidative stress were determined in eight national league American football players. Before (March) and at three time-points during the competition season (May, June, July) serum total peroxide concentrations, auto-antibody titres against oxidized low-density lipoprotein (oLab), and lag time of reactive oxygen species-induced degradation of the fluorophore 1-palmitoyl-2-((2-(4-(6-phenyl-trans-1,3,5-hexatrienyl)phenyl)ethyl)- carbonyl)-sn-glycero-3-phosphocholine (DPHPC) were measured along with serum ascorbate, alpha- and gamma-tocopherol, and beta-carotene concentrations. RESULTS: Before the competition season, serum antioxidant concentrations were within the lower normal range; ascorbate concentrations increased significantly during the competition period (P < 0.05). Serum peroxide concentrations were within the normal range and increased significantly during the competition period (P < 0.05); in four of the eight subjects the increase was several times the baseline values, while four athletes did not show any increase. The oLab titres increased significantly at the mid-competition period time-point (P < 0.01), but levelled off thereafter. DISCUSSION: Given that it could not be predicted from the baseline oxidative stress and antioxidant status which subject would respond to strenuous exercise with an increase in oxidative stress status, it is concluded that oxidative stress should be monitored in all athletes.

Effects of dietary fatty acids on the composition and oxidizability of low-density lipoprotein.

OBJECTIVE: The objective of this study was to compare the effects of dietary monounsaturated fatty acids (MUFA), n-6 and n-3 polyunsaturated fatty acids (PUFA) on LDL composition and oxidizability. DESIGN, SETTING AND SUBJECTS: Sixty-nine healthy young volunteers, students at a nearby college, were included. Six subjects withdrew because of intercurrent illness and five withdrew because they were unable to comply with the dietary regimen. INTERVENTIONS: The participants received a 2-week wash-in diet rich in saturated fatty acids (SFA) followed by diets rich in refined olive oil, rapeseed oil or sunflower oil for 4 weeks. Intakes of vitamin E and other antioxidants did not differ significantly between the diets. RESULTS: At the end of the study, LDL oxidizability was lowest in the olive oil group (lag time: 72.6 min), intermediate in the rapeseed oil group (68.2 min) and highest in the sunflower oil group (60.4 min, P<0.05 for comparison of all three groups). Despite wide variations in SFA intake, the SFA content of LDL was not statistically different between the four diets (25.8-28.5% of LDL fatty acids). By contrast, the PUFA (43.5%-60.5% of LDL fatty acids) and MUFA content of LDL (13.7-29.1% of LDL fatty acids) showed a wider variability dependent on diet. CONCLUSIONS: Enrichment of LDL with MUFA reduces LDL susceptibility to oxidation. As seen on the rapeseed oil diet this effect is independent of a displacement of higher unsaturated fatty acids from LDL. Evidence from this diet also suggests that highly unsaturated n-3 fatty acids in moderate amounts do not increase LDL oxidizability when provided in the context of a diet rich in MUFA.

Prooxidant activity of melatonin promotes fas-induced cell death in human leukemic Jurkat cells.

The antioxidant activity of melatonin (MEL) has been considered to constitute part of its physiological as well as pharmacological effects. However, as described herein we found a profound prooxidant activity of micro- to millimolar concentrations of MEL in the human leukemic Jurkat cell line. This prooxidant effect was increased in glutathione-depleted cells and counteracted by antioxidants. As a consequence MEL promoted fas-induced cell death. These data therefore indicate that MEL may be a modulator of the cellular redox status, but does not necessarily act as an intracellular antioxidant.

Ceruloplasmin as low-density lipoprotein oxidase: activation by ascorbate and dehydroascorbate.

The ability of ceruloplasmin (Cp) to oxidize low-density lipoproteins (LDL) in the presence of water-soluble antioxidants was investigated and a reaction mechanism proposed. Ascorbate strongly enhanced LDL oxidation, but only after its rapid consumption. Dehydroascorbate enhanced Cp-mediated LDL oxidation even more strongly. Lipid-soluble antioxidants and water-soluble peroxides did not show noticeable activation. However, loading of LDL with lipid hydroperoxides increased the initial oxidation rate. We conclude that Cp mediates a localized redox cycle, where reduction of Cp-Cu2+ is effected by water-soluble reductants and reoxidation by liposoluble hydroperoxides.

Hypochlorite induces the formation of LDL(-), a potentially atherogenic low density lipoprotein subspecies.

Oxidation of low density lipoprotein (LDL) induced by hypochlorous acid (HOCl) leading to LDL(-), a minimally oxidized subspecies of LDL, was investigated. LDL(-) is characterized by its greater electronegativity and oxidative status, and is found in plasma in vivo. Its concentration was found to be elevated under conditions that predispose humans to atherosclerosis. We found that HOCl also converts LDL rapidly to an even more oxidized state, identified as LDL(2-), which is more electronegative than LDL(-). After milder oxidation for short durations, formation of LDL(-) takes place while less LDL(2-) is formed. Under these conditions, addition of methionine not only suppressed further oxidation of LDL but also favored the formation of LDL(-) over LDL(2-), possibly by removing chloramines at lysyl residues of LDL. The presence of lipoprotein-deficient plasma did not prevent HOCl-mediated conversion of LDL to more electronegative species. It is concluded that the HOCl-mediated conversion of LDL into more electronegative species might be physiologically relevant.

Methods for monitoring oxidative stress, lipid peroxidation and oxidation resistance of lipoproteins.

After a brief discussion of lipid peroxidation mechanism and the action of antioxidants and their potential to exhibit prooxidant effects, we give an overview on the clinical relevance of oxidative stress parameters. Many diseases are associated with oxidative stress e.g. by radical damage, among them atherosclerosis, diabetes mellitus, chronic renal failure, rheumatoid arthritis, and neurodegenerative diseases, and in many cases the investigation of parameters of oxidative stress has brought substantial insights into their pathogenesis. We then briefly review methods for the continuous monitoring of lipid peroxidation processes in vitro, which has helped in elucidating their mechanism and in some more detail cover such methods which have been proposed more recently to assess oxidative status and antioxidant activity in biological samples.

The effect of glycosaminoglycans and proteoglycans on lipid peroxidation.

Recent investigations show that glycosaminoglycans (GAGs) and proteoglycans (PGs) have the ability to affect lipid peroxidation, one the best characterized forms of free radical mediated biological damage. A protective effect of these extracellular matrix (ECM) components has been demonstrated in various experimental systems, including fatty acids and liposomes, where oxidation was induced by transition metals, including copper and iron. The effect was specific and dependent on the type and structural features of GAGs and PGs. The mechanism of peroxidation inhibition was likely to be dependent, at least to a large extent, on the sequestration of transition metals by GAG chains. Thus, it is conceivable that GAGs in the ECM and in the pericellular space may contribute to protecting cells against free radical damage. It is of particular interest that in certain tissues (cornea and aorta) aging was associated with a decrease of content of the GAGs which were most effective as anti-oxidant. This suggests that age-induced modifications of ECM composition in certain tissues may increase the susceptibility to oxidative stress. The investigation on the effect of GAGs on lipoprotein oxidation led to apparently conflicting results. An interesting reconciliation is possible, according to which GAGs exerted their protective effect under experimental conditions not compatible with the formation of lipoprotein-GAG complexes; rather, lipoproteins exhibited increased susceptibility to metal-catalyzed oxidation (MCO), possibly due to structural modifications of the particle after binding to GAGs or PGs. This process is likely to occur in the intimal matrix of arteries.

Relationship between classic risk factors, plasma antioxidants and indicators of oxidant stress in angina pectoris (AP) in Tehran.

Cardiovascular disease (CVD) in general seems to be the leading cause of death in the Eastern Mediterranean Region (EMR) including Iran. This may be due to classic risk factors such as high triglyceride (TG), high total cholesterol (TC), and low levels of high density lipoprotein cholesterol (HDL-C). The impact of antioxidants as potentially protective risk factors against early coronary heart disease (CHD) is unknown in Iran. Therefore, relationships between angina and plasma antioxidants and indicators of lipid peroxidation were investigated in a case-control study. In this study, 82 cases of previously undiagnosed angina pectoris (AP), identified by a modified WHO Rose chest pain questionnaire and verified by electrocardiography during treadmill exercise testing, were compared with 146 controls selected from the same population of over 4000 male civil servants aged 40-60 years. Subjects with AP declared significantly less physical activity and had higher serum TG [means (S.E.M.) 2.32 (0.18) versus 1.61 (0.07) mmol/l] but lower HDL-C [1.01 (0.04) versus 1.18 (0.03) mmol/l] than age-matched controls. Levels of total serum cholesterol, low-density lipoprotein cholesterol (LDL-C) and lipoprotein(a) [Lp(a)] were not significantly different between the two groups, while the ratio of LDL-C/HDL-C was significantly higher [4.51 (0.23) versus 3.54 (0. 11)] for subjects with AP than for the controls. There was no significant difference in plasma levels of alpha-tocopherol, vitamin C, alpha- and beta-carotene. However, retinol [1.90 (0.06) versus 2. 09 (0.05)] and beta-cryptoxanthin [0.398 (0.04) versus 0.467 (0.03)] were significantly lower in AP. Furthermore, angina cases exhibited a higher index of lipid peroxidation than controls (e.g. malondialdehyde, MDA; 0.376 (0.010) versus 0.337 (0.009) micromol/l). On multiple logistic regression analysis, retinol with odds ratio (OR) of 0.644 [95% confidence interval (CI; 0.425-0.978)], beta-cryptoxanthin, with an OR of 0.675 (CI; 0.487-0.940), oxidation indices, MDA with OR of 1.612 (95% CI; 1.119-2.322) and LDL-C/HDL-C ratio with OR of 2.006 (95% CI; 1.416-2.849) showed the most significant independent associations with AP in this group of Iranians. In conclusion, the state of lipid peroxidation as well as the status of special antioxidants may be co-determinants of AP in Iran, in parallel with the influence of classical risk factors for cardiovascular disease.

Mechanistic aspects of the relationship between low-level chemiluminescence and lipid peroxides in oxidation of low-density lipoprotein.

In this study oxidation of low-density lipoprotein (LDL) induced by different Cu2+ concentrations was investigated. Lipid peroxidation was assessed by monitoring low-level chemiluminescence (LL-CL), conjugated diene hydroperoxide (CD) and alpha-tocopherol (TocOH), the major lipophilic antioxidant in LDL. At high Cu2+ concentration, LDL oxidation was characterised by CD formation, LL-CL emission and TocOH consumption. At low Cu2+ concentration, CD formation was independent of LL-CL and occurred in the presence of TocOH. Thus, two different mechanisms lead to lipid peroxide formation in LDL. The combination of CD assay and LL-CL monitoring makes it possible to distinguish the autocatalytic mechanism of CD formation and that associated with TocOH, found at a high and a low rate of initiation, respectively.

Macrophage-enhanced formation of cholesteryl ester-core aldehydes during oxidation of low density lipoprotein.

Oxidation of low density lipoproteins (LDL) results in changes to the lipoprotein particle that are potentially pro-atherogenic. To investigate mechanisms contributing to the formation of cholesteryl ester (CE)-core aldehydes (9-oxononanoyl- and 5-oxovaleroyl-cholesterol; 9-ONC and 5-OVC, respectively) LDL was incubated in the presence of mouse macrophages (J774 cells) under different culture conditions. Here we demonstrate that the formation of core aldehydes occurs only in transition metal-containing HAM's F10 medium but not in Dulbecco's modified Eagle's medium (DMEM), independent of supplementation with iron and copper at concentrations up to ten times higher than present in HAM's F10. The antioxidative properties of DMEM could be ascribed to the higher amino acid and vitamin content as compared to HAM's F10 medium. Supplementation with these components efficiently inhibited LDL oxidation in HAM's F10. Stimulation of J774 cells with phorbol ester (PMA) resulted in significantly enhanced 9-ONC and 5-OVC formation rates that were accompanied by increased consumption of LDL cholesteryl linoleate (Ch18:2) and cholesteryl arachidonate (Ch20:4) in the cellular supernatant. In PMA (10 ng/ml) activated cells, approximately 5% of Ch18:2 contained in LDL was converted to 9-ONC and 4% of Ch20:4 was converted to 5-OVC. With respect to core aldehyde formation, lipopolysaccharide (LPS, 10 microg/ml) was a less effective stimulant as compared to PMA. Part of the core aldehydes accumulated within the cells. Our study demonstrates that i) J774 macrophages are able to promote/accelerate core aldehyde formation in HAM's F10 medium, and ii) that core aldehyde formation rates can be increased by stimulation of the cells with PMA, and, although to a lesser extent, with LPS. Finally we could show that iii) a small amount of the core aldehydes is internalized by J774 macrophages.

N-acetylserotonin is a better extra- and intracellular antioxidant than melatonin.

Both melatonin and its precursor N-acetylserotonin have been reported to exert antioxidant properties both in vitro and in vivo. Since little is known about their antioxidant activity in lymphocytes, we investigated their effects on spontaneous and on oxidant-induced reactive oxygen species formation in human peripheral blood lymphocytes in comparison to the antioxidant trolox, a water-soluble analogue of alpha-tocopherol. Both melatonin and N-acetylserotonin exhibited antioxidant properties against t-butylated hydroperoxide- and diamide-induced reactive oxygen species formation in peripheral blood lymphocytes. N-acetylserotonin turned out to be about three times more effective than melatonin. In resting cells, the intracellular reactive oxygen species concentration was only decreased by N-acetylserotonin and trolox, melatonin had no effect. In t-butylated hydroperoxide-mediated cell death, N-acetylserotonin was as effective as trolox in protecting peripheral blood lymphocytes from cell death and required 10-fold lower concentrations than melatonin. Furthermore, in an aqueous cell-free solution, the capacity of N-acetylserotonin to scavenge peroxyl radicals was much higher than that of melatonin. These results clearly indicate N-acetylserotonin to be a much better antioxidant than melatonin.

Chondroitin-4-sulfate protects high-density lipoprotein against copper-dependent oxidation.

We investigated the effect of chondroitinsulphate (CS), the major glycosaminoglycan of the arterial wall, on the oxidation of human high-density lipoprotein (HDL) by kinetic analysis. Chondroitin-4-sulfate (C4S) increased the lag time and reduced the maximum rate of HDL oxidation induced by Cu2+, as assessed by monitoring both conjugated diene formation and low-level chemiluminescence. On the contrary, chondroitin-6-sulfate (C6S) was ineffective. Dermatansulfate exhibited an inhibitory effect comparable to that of C4S. C4S protected also the protein moiety of HDL, as it reduced tryptophan destruction by lipid-oxidizing species and delayed the formation of fluorescent adducts between end products of lipid peroxidation and amino acid residues. Again, C6S was ineffective. C4S was able to bind Cu2+; this resulted in less Cu2+ available for HDL oxidation and likely represented the mechanism of the protective effect. Neither C4S nor C6S affected HDL oxidation by peroxyl radicals, indicating that free radical scavenging activity was not involved in the protective effect. These results suggest that C4S might prevent the oxidative modification of HDL in arterial wall, thus preserving its antiatherogenic potential for reverse cholesterol transport and, possibly, for clearance of oxidized lipids.

Ascorbate prevents prooxidant effects of urate in oxidation of human low density lipoprotein.

Uric acid and ascorbic acid are important low molecular weight antioxidants in plasma. Their interactions and combined effect on Cu(2+)-catalysed oxidation of human low density lipoprotein were studied in vitro. It was found that uric acid alone becomes strongly prooxidant whenever it is added to low density lipoprotein shortly after the start of oxidation (conditional prooxidant). Ascorbic acid, which is present in human plasma at much lower concentrations (20-60 microM) than urate (300-400 microM), is in itself not a conditional prooxidant. Moreover, ascorbate prevents prooxidant effects of urate, when added to oxidising low density lipoprotein simultaneously with urate, even at a 60-fold molar excess of urate over ascorbate. Ascorbate appears to have the same anti-prooxidant effect with other aqueous reductants, which, besides their antioxidant properties, were reported to be conditionally prooxidant. Such interactions between ascorbate and urate may be important in preventing oxidative modification of lipoproteins in the circulation and in other biological fluids.

Modification of the lipid-protein interaction in human low-density lipoprotein destabilizes ApoB-100 and decreases oxidizability.

The interactions of the lipid and protein moiety of human low-density lipoprotein (LDL) and their influence on the oxidation behavior of LDL were modified using an amphipathic peptide, melittin, as a probe. The interaction of melittin with the LDL phospholipid surface resulted in a destabilization of apolipoprotein B-100 (apoB-100) as monitored by differential scanning calorimetry, while the characteristics of lipid core melting remained nearly unchanged. Binding of melittin caused a restriction of lipid chain mobility near the glycerol backbone, but not in the middle or near the methyl terminus of the fatty acyl chains as observed by electron paramagnetic resonance. Also, upon melittin addition, the level of copper binding to apoB-100 and the oxidizability of LDL by Cu2+ ions were greatly reduced, as indicated by abolished tryptophan fluorescence quenching upon Cu2+ binding and, during oxidation, prolongation of the lag phase of oxidation, attenuated consumption of alpha-tocopherol, and a lowered maximal rate of conjugated diene formation. This reduction of oxidizability could not be reversed by increasing the Cu2+ concentration. It is deduced that interaction of Cu2+ and alpha-tocopherol is required for reductive activation of the metal. It can be abolished by interfering with the interactions between apoB-100 and the lipid moiety of LDL which modifies the conformation of LDL and, as a consequence, hinders copper binding to apoB-100.