Scavenging of hydroxyl radical by catecholamines

The direct effects of the four catecholamines (CATs), adrenaline (A), noradrenaline (NA), dopamine (D) and isoproterenol (I), on free radicals were investigated using the free radical 2,2‐diphenyl‐1‐picrylhydrazyl (DPPH^?) and hydroxyl radial (HO^?). The CATs examined were found to inhibit the ESR signal intensity of DPPH^? in a dose‐dependent manner over the range 0.1–2.5 mmol/L in the following order: NA > A > I > D, with IC₅₀ = 0.30 ± 0.03 for noradrenaline and IC₅₀ = 0.86 ± 0.02 for dopamine. Hydroxyl radicals were produced using a Fenton reaction in the presence of the spin trap 5,5‐dimethyl‐1‐pyrroline N‐oxide (DMPO), and ESR technique was applied to detect the CATs reactivity toward the radicals. The reaction rates constant (k_r) of CATs with HO^? were found to be in the order of 10⁹ L/mol/s, and the k_r value for noradrenaline was the highest (k_r = 8.4 × 10⁹ L/mol/s). The CATs examined exhibited also a strong decrease in the light emission (62–73% at 1 mmol/L concentration and 79–89% at 2 mmol/L concentration) from a Fenton‐like reaction. These reactions may be relevant to the biological action of these important polyphenolic compounds. Copyright © 2012 John Wiley & Sons, Ltd.     

Improvement of the method to estimate the relative reaction rate constants of hydroxyl radical with polyphenols using ESR spin trap: X-ray irradiation of water with a flowing system

UV-photolysis of hydrogen peroxide is a useful technique to produce hydroxyl radical. However, it is not an appropriate method to estimate the reactivity of polyphenols with hydroxyl radicals because many of the polyphenol derivatives also absorb the UV-light to generate hydroxyl radicals. In this study, X-ray irradiation of water with a flowing system was applied to estimate the reactivity of hydroxyl radicals with polyphenols using electron spin resonance (ESR) spin trap. The obtained relative reaction rates reasonably agreed with previous data by pulse radiolysis. This method will be a useful technique to estimate the reactivity of antioxidants including polyphenols with hydroxyl radicals.     

Spin trapping endogenous radicals in MC-1010 cells: Evidence for hydroxyl radical and carbon-centered ascorbyl radical adducts

Incubation of MC-1010 cells with the spin-trapping agent 5,5-dimethyl-1-pyrroline 1-oxide (DMPO) followed by brief treatment with the solid oxidant lead dioxide (PbO₂) yielded, after filtration, a cell-free solution that contained two nitroxyl adducts. The first was the hydroxyl radical adduct, 5,5-dimethyl-2-hydroxypyrrolidine-1-oxyl (DMPO-OH), which formed immediately upon PbO₂ oxidation. The second had a 6-line EPR spectrum typical of a carbon-centered radical (A_N=15.9 G; A_H=22.4 G) and formed more slowly. No radical signals were detected in the absence of either cells or PbO₂ treatment. The 6-line spectrum could be duplicated in model systems that contained ascorbate, DMPO and DMPO-OH, where the latter was formed from hydroxyl radicals generated by sonolysis or the cleavage of hydrogen peroxide with Fe²⁺ (Fenton reaction). In addition, enrichment of MC-1010 cells with ascorbate prior to spin trapping yielded the 6-line EPR spectrum as the principal adduct following PbO₂ oxidation and filtration. These results suggest that ascorbate reacted with DMPO-OH to form a carbon-centered ascorbyl radical that was subsequently trapped by DMPO. The requirement for mild oxidation to detect the hydroxyl radical adduct suggests that DMPO-OH formed in the cells was reduced to an EPR-silent form (i.e., the hydroxylamine derivative). Alternatively, the hydroxylamine derivative was the species initially formed. The evidence for endogenous hydroxyl radical formation in unstimulated leukocytes may be relevant to the leukemic nature of the MC-1010 cell line. The spin trapping of the ascorbyl radical is the first report of formation of the carbon-centered ascorbyl radical by means other than pulse radiolysis. Unless it is spin trapped, the carbon-centered ascorbyl radical immediately rearranges to the more stable oxygen-centered species that is passive to spin trapping and characterized by the well-known EPR doublet of A_H4=1.8 G.Abbreviation EPR Electron Paramagnetic Resonance     

Sensitive detection and localization of hydroxyl radical production in cucumber roots and Arabidopsis seedlings by spin trapping electron paramagnetic resonance spectroscopy

As reactive oxygen species are important for many fundamental biological processes in plants, specific and sensitive techniques for their detection in vivo are essential. In particular, the analysis of hydroxyl radical (OH*) formation in biological reactions has rarely been attempted. Here, it is shown that spin trapping electron paramagnetic resonance (EPR) spectroscopy allows the detection and quantitative estimation of OH* production in vivo in one single cucumber seedling root. It is possible to localize the OH* production site to the growth zone of the root by varying the position of the intact seedling inside the resonator cavity of the EPR spectrometer. Moreover, the demonstration of impaired OH* formation in the root of the Arabidopsis mutant rhd2 impaired in a superoxide-producing Nicotimamide adenine dinucleotide phosphate (NADPH) oxidase has been accomplished. Spin trapping EPR provides a valuable tool for analyzing the production of OH*in vivo with high resolution in small tissue samples.     

锌7与镉7－金属硫蛋白清除羟自由基的比较

分离及纯化兔肝金属硫蛋白.制备去金属金属硫蛋白、锌₇与镉₇金属硫蛋白．在不同pH条件下,比较后二者清除羟自由基能力;在pH6条件下,比较锌₇－金属硫蛋白与有关蛋白和无机锌盐清除羟自由基效果．结论是在近生理pH条件下锌₇－金属硫蛋白清除羟自由基能力远强于镉₇－金属硫蛋白．金属硫蛋白清除羟自由基的能力主要来源于蛋白中处于还原态的流基．     

Bupivacaine hydrochloride induces muscle fiber necrosis and hydroxyl radical formation-dimethyl sulphoxide reduces hydroxyl radical formation

We induced acute skeletal muscle necrosis in rats using bupivacaine hydrochloride and found that both 2,5- and 2,3-dihydroxybenzoic acid significantly increased in skeletal muscle. A single administration of dimethyl sulphoxide, a free radical scavenger, significantly lowered concentrations of 2,5- and 2,3-dihydroxybenzoic acid. These results suggest that dimethyl sulphoxide is an effective hydroxyl radical scavenger and may be useful in the treatment of myopathy.     

Esr Spin Trapping Studies Into of Nature of the Oxidizing Species Formed in the Fenton Reaction: Pitfalls Associated With of Use Of 5,5-Dimethyl-1-Pyrroline-n-Oxide in the Detection of the Hydroxyl Radical

Several investigators have challenged the widely held view that the hydroxyl radical is the primary oxidant formed in the reaction between the ferrous ion and hydrogen peroxide. In recent studies, using the ESR spin trapping technique, Yamazaki and Piette found that the stoichiometry of oxidant formation in the reaction between Fe²⁺ and H₂O₂ often shows a marked deviation from the expected value of 1:1 (I. Yamazaki and L. H. Piette (1990) J. Am. Chem. Soc. 113, 7588-7593). In order to account for these observations, it was suggested that additional oxidizing species are formed, such as the ferryl ion (FeO²⁺), particularly when iron is present at high concentration and chelated to EDTA.

In this paper it is shown that secondary reactions, involving the redox cycling of iron and the oxidation of the hydroxyl radical adduct of the spin trap 5,5-dimethyl-1-pyrroline-N-oxide(DMPO) by iron, operate under the reaction conditions employed by Yamazaki and Piette. Consequently, the stoichiometry of oxidant formation can be rationalized without the need to envisage the formation of oxidizing species other than the hydroxyl radical. It is also demonstrated that the iron(III) complex of DETAPAC can react directly with DMPO to form the DMPO hydroxyl radical adduct (DMPO/OH) in the absence of hydrogen peroxide. Therefore, to avoid the formation of (DMPO/OH) as an artefact, it is suggested that DETAPAC should not be used as a reagent to inactivate containating adventitious iron in experiments using DMPO.     

北虫草抗氧自由基和羟自由基作用的研究

基于很多疾病与脂质过氧化有关 ,探讨了利用人工培育的北虫草的抗脂质过氧化作用。结果显示 :人工培育的北虫草子座对 Fenton反应生成的羟自由基具有较强的清除作用 ,且作用明显强于相同剂量的羟自由基特异清除剂甘露醇 (P<0 .0 1 ) ;北虫草对邻苯三酚自氧化体系产生的氧自由基亦具有清除作用 ,与对照组比较 P<0 .0 1 ,但作用弱于相同剂量的抗坏血酸。结果提示 :北虫草具有抗脂质过氧化作用。     

A multiple free-radical scavenging (MULTIS) study on the antioxidant capacity of a neuroprotective drug,edaravone as compared with uric acid,glutathione, and trolox

Edaravone (3-methyl-1-phenyl-2-pyrazoline-5-one) is a neuroprotective drug that has been used for brain ischemia injury treatment. Because its activity is speculated to be due to free radical scavenging activity, we carried out a quantitative determination of edaravone’s free radical scavenging activity against multiple free radical species. Electron spin resonance (ESR) spin trapping-based multiple free-radical scavenging (MULTIS) method was employed, where target free radicals were hydroxyl radical, superoxide anion, alkoxyl radical, alkylperoxyl radical, methyl radical, and singlet oxygen. Edaravone showed relatively high scavenging abilities against hydroxyl radical (scavenging rate constant k = 2.98 × 10¹¹ M⁻¹ s⁻¹), singlet oxygen (k = 2.75 × 10⁷ M⁻¹ s⁻¹), and methyl radical (k = 3.00 × 10⁷ M⁻¹ s⁻¹). Overall, edaravone’s scavenging activity against multiple free radical species is as robust as other known potent antioxidant such as uric acid, glutathione, and trolox. A radar chart illustration of the MULTIS activity relative to uric acid, glutathione, and trolox indicates that edaravone has a high and balanced antioxidant activity with low specificity.     

Generation of hydroxyl radical and its involvement in lignin degradation by Phanerochaete chrysosporium

Cultures of $\text{Phanerochaete chrysosporium}$ produced ethylene from methional and 2-keto-4-thiomethyl butyric acid (KTBA) only under conditions when the organism was competent to degrade [¹⁴C]-lignin to ¹⁴CO₂. The ability of several mutant strains to produce ethylene reflected their ability to degrade lignin. Hydroxyl radical scavengers including thiourea, salicylate, mannitol, 4-0-methylisoeugenol, as well as catalase, inhibited fungal lignin degradation, fungal ethylene production from methional and KTBA, as well as ethylene generation from KTBA via Fenton's reagent and γ-irradiation. In addition, methional inhibited fungal lignin degradation and lignin inhibited ethylene generation from methional. All of these results indicate that hydroxyl radical plays an important role in lignin degradation by $\text{P. chrysosporium}$.     

The effect of EDTA and iron on the oxidation of hydroxyl radical scavenging agents and ethanol by rat liver microsomes

Rat liver microsomes catalyzed an NADPH-dependent oxidation of dimethylsulfoxide, 2-keto-4-thiomethylbutyrate and ethanol. The addition of EDTA and iron (ferric)-EDTA increased the oxidation of the hydroxyl radical scavenging agents and ethanol. Unchelated iron had no effect; therefore, appropriately chelated iron is required to stimulate microsomal production of hydroxyl radicals. Catalase strongly inhibited control rates as well as EDTA or iron-EDTA stimulated rates of hydroxyl radical production whereas superoxide dismutase had no effect. The rate of ethanol oxidation was ten- to twenty-fold greater than the rate of oxidation of hydroxyl radical scavengers in the absence of EDTA or iron-EDTA, suggesting little contribution by hydroxyl radicals in the pathway of ethanol oxidation. In the presence of EDTA or iron-EDTA, the rate of ethanol oxidation increased, and under these conditions, hydroxyl radicals appear to play a more significant role in contributing toward the overall oxidation of ethanol.     

金银花不同提取方法的绿原酸比较研究

本文采用了水提法、水提醇沉法、酶解法、醇提法对金银花进行提取,并用紫外分光光度法来测定提取物中绿原酸的含量,依此来比较各种方法的优劣。由实验结果可得：以绿原酸作为指标来考察各种方法的优劣,尤以醇提法较好,绿原酸的含量可达到15.28%;以提取物的得率为指标来考察,以酶解法为最好,提取物的得率可达到37.91%。     

金属硫蛋白对大鼠红细胞膜受羟自由基损伤保护作用的自旋标记—ESR研究

用自旋标记物5NS,16NS及MSL分别插入红细胞膜脂及标记膜蛋白,发现金属硫蛋白(10~(-5)mol/L)对羟自由基引起的膜运动性减弱和膜蛋白构象改变有明显抑制作用,说明金属硫蛋白对大鼠红细胞膜的羟自由基损伤有保护作用,并且,对于低剂量的羟自由基损伤,保护作用更为明显。     

四苯基卟啉在苯溶液中光解产生自由基的ESR研究

用自旋捕捉-ESR方法对四苯基卟啉(H₂TPP)在苯中光解后产生的活泼自由基进行研究。当PBN存在时,光解中可给出6重ESR峰,表明自旋加合物为[HTPP-PBN]^·。而氧和碘化物的猝灭作用可知H₂TPP的光解是经由三重激发态途径进行的。而PBN的光敏分解则是由尚未转入三重态的H₂TPP所引起的。     

Deoxyribose breakdown by the adriamycin semiquinone and H2O2: evidence for hydroxyl radical participation

We report our finding that the reaction between the adriamycin semiquinone (produced by reduction of the drug by xanthine oxidase) and H2O2 in N2 causes deoxyribose degradation to a thiobarbituric acid-reactive chromogen. Deoxyribose breakdown was inhibited by scavengers of hydroxyl radicals, providing evidence for the participation of hydroxyl radicals. The reaction was detected in air, but was less efficient in air than in N2. Deoxyribose degradation did not require a metal catalyst, and was inhibited by superoxide dismutase in air, but not N2. A similar reaction with deoxyribose in DNA may be of major importance in the antitumour action of adriamycin.     

Conversion of Nitroxide Radicals by Phenolic and Thiol Antioxidants

Nitrone/nitroso spin traps are often used for detection of unstable hydroxyl radical giving stable nitroxide radicals with characteristic electron spin resonance (ESR) signals. This technique may be useful only when the nitroxide radicals are kept stable in the reaction system. The aim of the present study is to clarify whether the nitroxide radicals are kept stable in the presence of the hydroxyl radical scavengers. Effect of hydroxyl radical scavengers on the ESR signals of nitroxide radicals, 2,2,6,6-tetramethyI-piperi-dine-N-oxyl (TEMPO) and the spin adduct (DMPO-OH) of 5,5-dimethyl-l-pyrroline N-oxide (DMPO) and hydroxyl radical, was examined. Although the ESR signals of TEMPO and the DMPO-OH spin adduct were unchanged on treatment with ethanol and dimethyl sulfoxide, their intensities were effectively decreased on treatment with 6-hydroxy-2,5,7,8-tetra-methylchroman-2-carboxylic acid (Trolox), cysteine, glutathione, 2-mercaptoethanol and metallothionein. Hence, the results of the detection of hydroxyl radical in the presence of phenolic and thiol antioxidants by the ESR technique using nitrone/nitroso spin traps may be unreliable.     

Reaction of Vanadyl with Hydrogen Peroxide. An ESR and Spin Trapping Study

Vanadyl reacts with hydrogen peroxide forming hydroxyl radicals in a Fenton-like reaction. The hydroxyl radicals were spin trapped and identified using 5.5-dimethyl-I-pyrroline-N-oxide (DMPO). The quantity of hydroxyl radicals spin trapped during the reaction between vanadyl and hydrogen peroxide are equal to half of the hydroxyl radicals spin trapped during the reaction between ferrous ions and hydrogen peroxide. Experiments in the presence of formate show that this hydroxyl radical scavenger effectively competes with DMPO preventing the formation of the DMPO-OH adduct. However. in experiments using ethanol as the hydroxyl radical scavenger it was not possible to completely prevent the formation of DMPO-OH. The formation of this additional DMPO-OH in the presence of ethanol does not depend on the concentration of dissolved oxygen, but does depend on the concentration of hydrogen peroxide added to the vanadyl solution. The results suggest that the additional DMPO-OH formed in the presence of ethanol originates from a vanadium (V) intermediate. This intermediate may oxidize DMPO leading to the formation of DMPO-0; which rapidly decomposes forming DMPO-OH.     

Formation of TEMPOL-hydroxylamine during reaction between TEMPOL and hydroxyl radical: HPLC/ECD study

Nitroxyl radicals are important antioxidants that have been used to protect animal tissues from oxidative damage. Their reaction with hydroxyl radical (^?OH) is generally accepted to be the mechanism of antioxidant function. However, the direct interaction of nitroxyl radicals with ^?OH does not always provide a satisfactory explanation in various pH, because the concentration of hydrogen ion may affect the generation of secondary ^?OH-derived radicals. In the present study, it was confirmed that the reaction between 4-hydroxy-2,2,6,6-tetramethylpiperidine-N-oxyl (TEMPOL) and ^?OH generated TEMPOL-hydroxylamine, 4-oxo-2,2,6,6-tetramethylpiperidine-N-oxyl (TEMPON) and TEMPON-hydroxylamine using HPLC coupled with electrochemical detection. In the absence of NADH, TEMPOL-H may be generated by the reaction with secondary ^?OH-derived radicals in acidic condition. In the presence of NADH, a large proportion of the non-paramagnetic products was TEMPOL-H. Finally, it was clarified that TEMPOL-H was generated during dopamine metabolism, which is believed to be one of the ^?OH sources in pathological processes such as Parkinson's disease.