Experimental study on the antioxidant activity of Malus hupehensis (Pamp.) Rehd extracts in vitro and in vivo

Extracts of Malus hupehensis (Pamp.) Rehder, containing flavonoids with good antioxidant and antiliver injury properties, possess various biological activities. The aim of this study was to explore the antioxidant activity of these extracts in vitro and in vivo. The antioxidant activity of the extracts was studied using scavenging 1,1-diphenyl-2-picrylhydrazyl (DPPH) free radicals, 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) (ABTS) radicals, and superoxide free radicals and by inhibiting mushroom tyrosinase activity in vitro. An in vivo antioxidant experiment was performed using a rat-aging model. Aging was induced in rats with D-galactose through treating them at doses of extracts about 150, 300, and 600 mg·kg⁻¹·day⁻¹. The Malus hupehensis extracts showed high antioxidant activity; the IC₅₀ values of DPPH radicals, ABTS radicals, superoxide radicals, and mushroom tyrosinase inhibition were 19.00 μg/mL, 303.94 μg/mL, and 3.71 mg/mL, and 1.16 mg/mL, respectively. Our experiments showed that the extracts significantly increased the activity of antioxidant enzymes in the serum and tissue homogenate in vivo, and that the effects were positively correlated with the dose, compared with the activity observed in controls. Histopathological observation also confirmed that the extracts had protective effects after oxidative injury in rat tissues. In conclusion, the extracts of M. hupehensis showed effective antioxidant activity both in vitro and in vivo.     

Free radical scavenging activity of the Japanese herbal medicine Toki-Shakuyaku-San (TJ-23) and its effect on superoxide dismutase activity,lipid peroxides,glutamate, and monoamine metabolites in aged rat brain

The free radical scavenging activity of the Japanese herbal medicine, Toki-Shakuyaku-San (TJ-23; TSUMURA & Co., Tokyo, Japan), was examined using electron spin resonance (ESR) spectrometry. TJ-23 scavenged 1,1-diphenyl-2-picrylhydrazyl radicals (DPPH), superoxide (O₂ ⁻), and hydroxyl radicals (·OH) dose-dependently. It also diminished carbon centered radicals (·C) generated by oxidative stress and inhibited thiobarbituric acid-reactive substances (TBARS) formation in mouse cortex homogenate. In addition, the effect of TJ-23 on the concentration of neurotransmitters and TBARS formation, and superoxide dismutase (SOD) activity in the cortex, hippocampus and striatum of the aged rat brain was studied. The concentrations of the metabolites of monoamines, glutamate and glutamine were decreased by 4 weeks of oral administration of TJ-23. The SOD activity of mitochondrial fraction was increased and TBARS formation was significantly suppressed. These results suggest that TJ-23 has an antioxidant action and would have a prophylactic effect against free radical-mediated neurological diseases associated with aging.     

Silibinin induces protective superoxide generation in human breast cancer MCF-7 cells

Abstract

The pharmacological activity of polyphenolic silibinin from milk thistle (Silybum marianum) is primarily due to its antioxidant property. However, this study found that silibinin promoted sustained superoxide (O₂^·–) production that was specifically scavenged by exogenous superoxide dismutase (SOD) in MCF-7 cells, while the activity of endogenous SOD was not changed by silibinin. Previous work proved that silibinin induced MCF-7 cell apoptosis through mitochondrial pathway and this study further proved that O₂^·– generation induced by silibinin was also related to mitochondria. It was found that respiratory chain complexes I, II and III were all involved in silibinin-induced O₂^·– generation. Moreover, it was found that silibinin-induced O₂^·– had protective effect, as exogenous SOD markedly enhanced silibinin-induced apoptosis.     

Antioxidant properties of fungal metabolite nigerloxin in vitro

We have recently reported the beneficial influence of the fungal metabolite nigerloxin, a new aldose reductase inhibitor and a lipoxygenase inhibitor on oxidative stress in streptozotocin induced diabetic rats. In the present study we have investigated the antioxidant potential of nigerloxin in vitro as compared to one of the well known natural antioxidant, curcumin. The fungal metabolite nigerloxin was found to be an effective antioxidant in different in vitro assays including the phosphomolybdenum, 2,2-diphenyl-1-picrylhydrazyl (DPPH^·), 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulphonic acid) (ABTS^·+) and ferric reducing antioxidant power (FRAP) methods. The antioxidant potency of nigerloxin may be attributed to its electron donating nature. The ferric reducing potency of nigerloxin as demonstrated by FRAP assay method was even found to be superior to that of the natural antioxidant curcumin.     

Proteomics of the milk fat globule membrane from Camelus dromedarius

Camel milk has been widely characterized with regards to casein and whey proteins. However, in camelids, almost nothing is known about the milk fat globule membrane (MFGM), the membrane surrounding fat globules in milk. The purpose of this study was thus to identify MFGM proteins from Camelus dromedarius milk. Major MFGM proteins (namely, fatty acid synthase, xanthine oxidase, butyrophilin, lactadherin, and adipophilin) already evidenced in cow milk were identified in camel milk using MS. In addition, a 1D‐LC‐MS/MS approach led us to identify 322 functional groups of proteins associated with the camel MFGM. Dromedary MFGM proteins were then classified into functional categories using DAVID (the Database for Annotation, Visualization, and Integrated Discovery) bioinformatics resources. More than 50% of MFGM proteins from camel milk were found to be integral membrane proteins (mostly belonging to the plasma membrane), or proteins associated to the membrane. Enriched GO terms associated with MFGM proteins from camel milk were protein transport (p‐value = 1.73 × 10^?14), translation (p‐value = 1.08 × 10^?11), lipid biosynthetic process (p‐value = 6.72 × 10^?10), hexose metabolic process (p‐value = 1.89 × 10^?04), and actin cytoskeleton organization (p‐value = 2.72 × 10^?04). These findings will help to contribute to a better characterization of camel milk. Identified MFGM proteins from camel milk may also provide new insight into lipid droplet formation in the mammary epithelial cell.     

Superoxide dismutase enhances chain-breaking antioxidant capability of hydroquinones

2-tert-butyl-(1), 2,6-dimethyl-(2), 2,5-dimethyl-(3), trimethyl-(4), and 2,3-dimethoxy-5-methyl-(5) substituted p-hydroquinones (QH₂) were tested as a chainbreaking antioxidant during the oxidation of methyl linoleate (ML) in dodecyl sulfate micellar solution, pH 7.40, at 37°C. In the absence of superoxide dismutase (SOD), all the studied QH₂ displayed very moderate if any antioxidant capability. When 5–25 U/ml SOD was added, QH₂ showed a pronounced ability to inhibit ML oxidation. The stoichiometric factor of inhibition was found to be about one for all the tested QH₂ in the presence of SOD. The reactivities of QH₂ to the ML peroxy radical increase in the order QH₂5 < QH₂ 3 < QH₂1≈QH₂2 < QH₂4; reactivity of QH₂4 exceds that reported for the majority of phenolic antioxidants. The features of QH₂ as an antioxidant in aqueous environment is likely associated with the reactivity of semiquinone (O^·-) formed due to attack of the peroxy radical to QH₂. O^·- reacts readily with molecular oxygen with formation of superoxide (O^·-₂); in turn, O^·-₂ attacks both to QH₂ and ML (likely, as HO^·₂) that results in fast depleting QH₂ and chain propagation, respectively. The addition of SOD results in purging a reaction mixture from O^·-₂ and, as a corollary, in depressing undesirable reactions with the participation of O^·-₂. Under these conditions, QH₂ displays the theoretically highest inhibitory activity which is determined solely by the reactivity of QH₂ to the peroxy radical.     

Isoorientin-6″-O-glucoside,a water-soluble antioxidant isolated from Gentiana arisanensis

The antioxidant activities of isoorientin-6″-O-glucoside were studied using various models. Isoorientin-6″-O-glucoside was more potent than Trolox, probucol and butylated hydroxytoluene (BHT) in reducing the stable free radical 1,1-diphenyl-2-picrylhydrazyl (DPPH). It also scavenged superoxide anion, peroxyl and hydroxyl radicals that were generated by xanthine/xanthine oxidase, 2,2′-azobis(2-amidinopropane) dihydrochloride (AAPH) and Fe³⁺–ascorbate–EDTA–H₂O₂ system, respectively. The IC₅₀ value, stoichiometry factor and second-order rate constant were 9.0 ± 0.8 μM, 1.8 ± 0.1 and 2.6 × 10¹⁰ M⁻¹ s⁻¹ for superoxide generation, peroxyl and hydroxyl radicals. However, isoorientin-6″-O-glucoside did not inhibit xanthine oxidase activity or scavenge hydrogen peroxide (H₂O₂), carbon radical or 2,2′-azobis(2,4-dimethylvaleronitrile) (AMVN)-derived peroxyl radical in hexane. Isoorientin-6″-O-glucoside inhibited Cu²⁺-induced oxidation of human low-density lipoprotein (LDL) as measured by fluorescence intensity, thiobarbituric acid-reactive substance formation and electrophoretic mobility. Since isoorientin-6″-O-glucoside did not possess pro-oxidant activity, it may be an effective water-soluble antioxidant that can prevent LDL against oxidation.     

Inhibition of goby posterior intestinal NaCl absorption by natriuretic peptides and by cardiac extracts

Natriuretic peptides abolish active Na⁺ and Cl^- absorption aross the posterior intestine of the euryhaline gobyGillichthys mirabilis. Inhibition by eel and human natriuretic peptides is dose-dependent with the following sequence of potencies based on experimentally determined ID₅₀ values for inhibition of short-circuit current: eel ventricular natriuretic peptide (78 nmol · l^-1), eel atrial natriuretic peptide (156 nmol · l^-1), human brain natriuretic peptide (326 nmol · l^-1), human α atrial natriuretic peptide (1.05 μmol · l^-1), and eel C-type natriuretic peptide (75 μmol · l^-1). Natriuretic peptides also significantly increase transcellular conductance. The observed sequence of natriuretic peptide potencies is suggestive of cellular mediation by GC-A-type NP-R₁ receptors in this tissue; as expected for guanylyl-cyclase-coupled NP-R₁ receptors, cyclic GMP mimics the action of natriuretic peptides on the goby intestine. Crude aqueous extracts of goby atrium and ventricle inhibited short circuit current and increased tissue conductance in a dose-dependent manner. Ventricular extract was more potent than atrial extract on both a per organ and per milligram basis.     

The effect of buffers and chelators on the reaction of luminol with Fenton's reagent near neutral pH

The chemiluminescence of the system luminol +Fe²⁺ + H₂O₂ was measured in aqueous buffer at pH 7.2. In veronal (5,5-diethybarbiturate) buffer, the luminescence is strongly quenched by ethanol and mannitol, but only weakly by t-butanol, benzoate and superoxide dismutase (SOD); complexing Fe²⁺ with 1,10-phenanthroline or 2,2′-dipyridyl causes a decrease of light production that can be partially obviated by the simultaneous addition of SOD. In phosphate buffer, the luminescence is higher than in veronal and it is efficiently quenched by all four OH · quenchers and by SOD. In Tris buffer, no light production is observed as long as the Fe²⁺ is not complexed. When Fe²⁺ is complexed by pyrophosphate or phytate, there is a strong chemiluminescence in all three buffers, which is quenched by all four OH · quenchers and by SOD. When Fe²⁺ is complexed by EDTA or DTPA, very little luminescence is observed. The luminol analogue phthalhydrazide, which was suggested by Merényi and Lind as a reliable OH · detector, can replace luminol only in phosphate buffer, and thus turns out to be very specific indeed for free OH ·.     

Cholic acid changes defense response to oxidative stress in soybean induced by <Emphasis Type="Italic">Aspergillus niger</Emphasis>

The oxidative stress and antioxidant systems in soybean leaves and roots infected with plant pathogen Aspergillus niger were studied following treatment with different concentrations of cholic acid. Several oxidative stress parameters were analyzed: production of superoxide (O₂ ^·−) and hydroxyl radicals (^·OH), lipid peroxidation (LP), and superoxide dismutase (SOD; EC 1.15.1.1) activity, as well as the content of reduced glutathione (GSH). Results showed that inoculation with A. niger led to the increase of O₂ ^·− production and GSH quantities in leaves and ^·OH in roots. The highest activity of SOD occured in infected plants treated with cholic acid in concentrations of 40 and 60 mg L⁻¹ which ultimately led to a decrease in O₂ ^·− production. Inoculation with Aspergillus in combination with elevated cholic acid concentrations also increased ^·OH production which is correlated with increased LP. These results may support the idea of using cholic acid as an elicitor to trigger hypersensitive response in plant cells. Use of cholic acid may also actively contribute to soybean plants defense response against pathogen attack.     

Antioxidant properties of a human neuropeptide and its protective effect on free radical‐induced DNA damage

Human catestatin CgA_352–372 (SL21) is an endogenous neuropeptide with multiple biological functions. The present study aimed to evaluate the antioxidant, antibacterial, cytotoxic, and DNA damage protective effects of SL21 neuropeptide. SL21 neuropeptide generated from the C‐terminus of chromogranin A (CgA) was synthesized by solid‐phase method. Synthetic peptide was subjected to various in vitro antioxidant assays including the scavenging of 1,1‐diphenyl‐2‐pycryl‐hydrazyl (DPPH), 2,2‐azino‐bis(3‐ethylbenzothiazoline‐6‐sulfonic acid) (ABTS^·+), and hydroxyl free radicals, metal ion chelation, inhibition of lipid peroxidation, and reducing power. Moreover, protective effect of SL21 on H₂O₂‐induced DNA damage was analyzed using pTZ57/RT plasmid. Methylthiazoltetrazolium assay was also performed to study the cytotoxic effect of SL21 neuropeptide on human peripheral blood mononuclear cells. Furthermore, antibacterial and hemolysis assays were conducted. The results demonstrated high activities of SL21 in scavenging free radicals (DPPH, ABTS^·+, and hydroxyl), chelating of Cu²⁺/Fe²⁺ metal ions, reducing power, and inhibition of lipid peroxidation in a concentration‐dependent manner. SL21 neuropeptide revealed a protective effect on DNA damage caused by hydroxyl radicals. Interestingly, the peptide exhibited no significant cytotoxicity towards peripheral blood mononuclear cells. Furthermore, SL21 peptide displayed antimicrobial activity against Staphylococcus aureus and Pseudomonas aeruginosa without any hemolytic activity on human red blood cells. Conclusively, the present study established SL21 (catestatin) as a novel antioxidative peptide that could further be investigated for its potential use as a pharmaceutical agent. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Superoxide dismutase–mimicking activities of dinuclear Cu(II) complexes with ligands containing a tetrathioether-tetraamino moiety

The superoxide scavenging activities of copper(II) complexes with the ligands, 6,6′-methylene-bis(5′-amino-3′,4′-benzo-2′-thiapentyl)-1,11-diamino-2,3:9,10-dibenzo-4,8-dithiaundecane (H₄L), and 6,6′-bis(5′-amino-3′,4′-benzo-2′-thiapentyl)-1,11-diamino-2,3:9,10-dibenzo-4,8-dithiaundecane (H₄L′), were investigated by xanthine–xanthine oxidase (X/XO) assays using nitroblue tetrazolium (NBT) as indicator molecule, and the results were compared with respect to the particular type of anion (ClO·4, Cl^·, NO·3) on the apical site of the copper(II) complexes. All of the complexes inhibited the reduction of NBT by superoxide radicals, with the [Cu₂(L′)](ClO₄)₂ complex exhibiting the highest scavenging activity against superoxide radicals among the complexes examined. The catalytic efficiency of the complexes for dismutation of superoxide radicals depends on the particular anion liganded to Cu(II) ion in the complexes, and the order of potency was observed to be ClO₄ > Cl > NO·3 in phosphate buffer at pH 7.40. The Cu(II)-H₄L′ complexes had the lowest IC₅₀ and catalytic rate constant values indicating that the distorted geometry of the Cu(II)-H₄L′ complexes influence their catalytic activities for dismutation of superoxide radicals more efficiently. The difference in the activities of the complexes toward superoxide radicals can also be attributed to the nature of the anions on the apical site of the copper(II) complexes and the superoxide dismutase-like activity. © 1997 John Wiley & Sons, Inc. J Biochem Toxicol 12: 53–59, 1998     

Comparison of antioxidant effectiveness of lipoic acid and dihydrolipoic acid

The abilities of dihydrolipoic acid (DHLA) to scavenge peroxynitrite (ONOO^?), galvinoxyl radical, 2,2′‐azinobis(3‐ethylbenzothiazoline‐6‐sulfonate) cation radical (ABTS^+?), and 2,2′‐diphenyl‐1‐picrylhydrazyl radical (DPPH) were higher than those of lipoic acid (LA). The effectiveness of DHLA to protect methyl linoleate against 2,2′‐azobis(2‐amidinopropane hydrochloride) (AAPH)‐induced oxidation was about 2.2‐fold higher than that of LA, and DHLA can retard the autoxidation of linoleic acid (LH) in the β‐carotene‐bleaching test. DHLA can also trap ～0.6 radicals in AAPH‐induced oxidation of LH. Moreover, DHLA can scavenge ～2.0 radicals in AAPH‐induced oxidation of DNA and AAPH‐induced hemolysis of erythrocytes, whereas LA can scavenge ～1.5 radicals at the same experimental conditions. DHLA can protect erythrocytes against hemin‐induced hemolysis, but accelerate the degradation of DNA in the presence of Cu²⁺. Therefore, the antioxidant capacity of –SH in DHLA is higher than S‐S in LA. © 2010 Wiley Periodicals, Inc. J Biochem Mol Toxicol 25:216–223, 2011; View this article online at wileyonlinelibrary.com . DOI 10.1002/jbt.20378     

Purification and Identification of Pine Nut (Pinus yunnanensis Franch.) Protein Hydrolysate and Its Antioxidant Activity in Vitro and in Vivo

In this study, the pine nut (Pinus yunnanensis Franch.) protein was hydrolyzed by alkaline protease and trypsin to prepare pine nut protein hydrolysate (PNPH). The chemical, intracellular and in vivo antioxidant capacity of PNPH were evaluated. PNPH owned the ability of scavenging free radicals, and it could protect the HepG2 cells from oxidative damage by preserving cell viability. Moreover, PNPH could reduce the malondialdehyde (MDA) content and improved the superoxide dismutase (SOD) and glutathione peroxidase (GSH-Px) activities in serum, heart and liver of aging mice induced by D-galactose. Further, the PNPH was stepwise purified and identified, and 15 peptides were identified from purified fraction in PNPH. The three-dimension structures of identified peptides were predicted. Among all identified peptides, peptide 3, 7, 8 and 11 were presumed to possess good antioxidant activity. Overall, PNPH and purified peptides isolated from PNPH have potential application prospects in the field of natural antioxidants and anti-aging functional foods.     

Potential of Sagittaria trifolia for Phytoremediation of Diesel

The phytoremediation potential and responses of Sagittaria trifolia to diesel were investigated. In order to elucidate the biochemical and physiological responses of S. trifolia to diesel, the chlorophyll content, root vitality, soluble protein content and antioxidant enzymes activity (peroxidase (POD), catalase (CAT) and antioxidant enzymes superoxide dismutase (SOD)) were determined in the plant tissues after 50 d of diesel treatment. The results showed the presence of S. trifolia significantly improved the removal ratios of diesel, from 21～36% in the control soils to 54～85% in the planted soils. The chlorophyll content, root vitality and soluble protein content all increased at low diesel concentration, then decreased at high diesel concentration. The activities of CAT and POD exhibited peak values at 5 g·kg^?1 diesel treatment and declined at higher diesel concentrations. However, the activity of SOD kept stable at lower diesel concentration (1 and 5 g·kg^?1), and also declined at higher diesel concentration. Collectively, S. trifolia had the ability to tolerate certain amount of diesel, but when the concentration was up to 10 g·kg^?1, the growth of S. trifolia would be restrained. The results also showed that variation of antioxidant enzyme activity was an important response in plants to diesel pollution.     

Sphaerophysa kotschyana, an endemic species from Central Anatolia: antioxidant system responses under salt stress

Sphaerophysa kotschyana is a Turkish endemic and endangered plant that grows near Salt Lake, in Konya, Turkey. However, little is known about the ability of this plant to generate/remove reactive oxygen species (ROS) or its adaptive biochemical responses to saline environments. After exposure of S. kotschyana to 0, 150, and 300 mM NaCl for 7 and 14 days, we investigated (1) the activities and isozyme compositions of the antioxidant enzymes superoxide dismutase (SOD), catalase (CAT), peroxidase (POX), ascorbate peroxidase (APX), and glutathione reductase (GR); (2) the oxidative stress parameters NADPH oxidase (NOX) activity, lipid peroxidation (MDA), total ascorbate (tAsA) content, and total glutathione content (tGlut); and (3) ROS levels for superoxide anion radical (O ₂ ^·? ), hydrogen peroxide (H₂O₂), hydroxyl radicals (OH·), and histochemical staining of O ₂ ^·? and H₂O₂. H₂O₂ content increased after 14 days of salt stress, which was consistent with the results from histochemical staining and NOX activity measurements. In contrast, oxidative stress induced by 150 mM NaCl was more efficiently prevented, as indicated by low malondialdehyde (MDA) levels and especially at 7 days, by increased levels of SOD, POX, APX, and GR. However, at 300 mM NaCl, decreased levels of protective enzymes such as SOD, CAT, POX, and GR, particularly with long-term stress (14 days), resulted in limited ROS scavenging activity and increased MDA levels. Moreover, at 300 mM NaCl, the high H₂O₂ content caused oxidative damage rather than inducing protective responses against H₂O₂. These results suggest that S. kotschyana is potentially tolerant to salt-induced damage only at low salt concentrations.     

Reactive Oxygen Species and Relative Enzyme Activities in the Development of Aerial Roots of Chinese Banyan (Ficus microcarpa)

Although previous research has indicated that reactive oxygen species (ROS) regulate cell extension and tissue ontogenesis, the functions of ROS in aerial roots have not been previously studied. This research evaluated ROS production and dissipation in aerial roots of Chinese banyan (Ficus microcarpa). Aerial root segments (4 cm long) were cut from trees and divided into developmental zones 1, 2, and 3 (0–5, 5–15, and 15–25 mm from root tip, respectively). According to histochemical and biochemical determinations, production of the superoxide radical (O ₂ ^·– ), hydrogen peroxide (H₂O₂), and the hydroxyl radical (^·OH) decreased from zone 1 to zone 3. The detected ROS increased with the application of exogenous stimulators of ROS generation and decreased with the application of exogenous inhibitors of ROS generation. Based on protein content, superoxide dismutase (SOD) activity increased but peroxidase (POD) and catalase (CAT) activities decreased from zone 1 to zone 3, whereas based on root segment fresh weight, SOD and CAT activities did not differ among the zones but POD activity decreased from zone 1 to 3. We conclude that ROS are generated mainly in the rapidly developing zones of aerial roots and suggest that NADPH oxidase, POD, and SOD control ROS generation. POD activity and the hydroxyl cycle seem particularly important in ROS generation in aerial roots.     

Influence of the extraction solvent on antioxidant activity of Althaea officinalis L. root extracts

Althaea officinalis (Malvaceae) is a well-known plant that is widely distributed throughout the world. Aqueous and hydroalcoholic extracts from A. officinalis root are used mainly because of their antitussive and expectorant activity. It is well known that these activities are based on the polysaccharide composition, but little is known about the possible antioxidant activity of root extract. The present study evaluated antioxidant activity of root extracts prepared with different extraction solvents applying ABTS^·+ (2,2′-azino-bis(3-ethylbenzothiazoline-6-sulphonic acid), hypochlorous acid scavenging assay and iron-induced lipid peroxidation. The results showed that the extract prepared with water as extraction solvent did not possess antioxidant activity, whereas the extracts obtained using ethanol:water as extraction agent showed well pronounced antioxidant activity. In particular, the extracts obtained at low concentration of ethanol in the mixed solvent (50:50 and 70:30, v/v) showed higher scavenging activity for ABTS^·+ radicals and hypochlorite ions than the extract obtained with the higher ethanol concentration (90:10, v/v). These results correlated very well with phenolic and flavonoid content of the extracts. The extracts did not show cytotoxic effect on human BV-173 leukemic cells but may have immunomodulating effects due to their antioxidant properties.     

Radical scavenging ability of some compounds isolated from Piper cubeba towards free radicals

The purpose of this study was to identify the antioxidant activity of 16 compounds isolated from Piper cubeba (CNCs) through the extent of their capacities to scavenge free radicals, hydroxyl radical (HO^?), superoxide anion radical () and 2,2‐diphenyl‐1‐picrylhydrazyl radical (DPPH^?), in different systems. Electron paramagnetic resonance (EPR) and 5,5‐dimethyl‐1‐pyrroline‐N‐oxide, DMPO, as the spin trap, and chemiluminescence techniques were applied. Using the Fenton‐like reaction [Fe(II) + H₂O₂], CNCs were found to inhibit DMPO? OH radical formation ranging from 5 to 57% at 1.25 mmol L^?1 concentration. The examined CNCs also showed a high DPPH antiradical activity (ranging from 15 to 99% at 5 mmol L^?1 concentration). Furthermore, the results indicated that seven of the 16 tested compounds may catalyse the conversion of superoxide radicals generated in the potassium superoxide/18‐crown‐6 ether system, thus showing superoxide dismutase‐like activity. The data obtained suggest that radical scavenging properties of CNCs might have potential application in many plant medicines. Copyright © 2010 John Wiley & Sons, Ltd.     

The antiplatelet activity of camel milk in healthy and aluminum chloride-intoxicated rats

This study examined the effect of camel milk on some marker of blood coagulation markers in aluminum chloride (ALCl₃)-treated rats. Rats (n = 6) were assigned as control, control + fresh camel milk (1 ml), ALCl₃ (0.5 mg/kg), and ALCl₃ + fresh camel milk (1 ml and 0.5 mg/kg, respectively). Treatments were conducted orally for 30 days and daily. Administration of camel milk to control and ALCl₃-intoxicated rats significantly increased platelet count, bleeding time, and collagen epinephrine (CEPI)-induced platelet aggregation. It also lowered plasma levels of thromboxane B2 and hepatic levels of glutathione (GSH) and the activities of antioxidant enzymes, catalase (CAT) and superoxide dismutase (SOD). While the treatment with camel milk has no effect on the liver structure, values of activated partial prothrombin time (aPPT), and levels of prothrombin time (PT) in control rats, it improved liver architectures and decreased serum levels alanine and aspartate aminotransferases (ALT and AST, respectively), and reduced values of both aPTT and PT in ALCl₃-intoxicated rats. In conclusion, camel milk inhibits platelets activity and aggregation in both control and ALCl₃-intoxicated rats.