Chroman amide and nicotinyl amide derivatives: inhibition of lipid peroxidation and protection against head trauma

A series of chroman amide and nicotinyl amide derivatives was designed and synthesized for the treatment of traumatic and ischemic CNS injury. Five compounds were significantly more potent inhibitors of lipid peroxidation in vitro than the reference antioxidant, trolox (p < 0.01). Quantitative structure activity studies demonstrated that the inhibitory action was related to the ability to donate electrons, charge on hydroxy group and E(LUMO), to scavenging radicals and to the lipophilicity log P, which determines penetration of membrane lipids. ESR study indicated the ability of 12 to scavenge the hydroxyl radicals. The most promising compound, [(3,4-dihydro-6-hydroxy-2,5,7,8-tetramethyl-2H-1-benzopyran-2yl)ca rbonyl]-3'-(aminoethyl) indole (12), inhibited ex vivo lipid peroxidation in a head injury model and showed potent in vivo neuroprotective efficacy. Improvement of neurological recovery within 1 h of injury (grip test score) by as much as 200% was observed together with significant anti-anoxia activity. Compound 12 was a potent antagonist of methamphetamine-induced hypermotility resulting from dopamine release in the mouse brain. These results support the importance of cerebroprotective radical-scavenging agents for the treatment of traumatic injury and anoxia as well as provide additional evidence for the role of oxygen radicals and dopamine in brain damage.     

Chroman amide 12P inhibition of lipid peroxidation and protection against learning and memory impairment

Structure modification of the cerebroprotective chroman amide 12 to improve the drug delivery to the target organ by protecting the active hydroxy functional group was carried out in this study. Chroman amide 12P, which the O-acetyl group was served to protect the active group to be delivered to the target organ, was synthesized. Ex vivo antilipid peroxidation activity of 12P was significantly greater than the activity of 12 while the in vitro inhibition of 12P was found to be lower. These indicated that 12P with protected active group effectively reached the brain, the target site, but in vitro, 12P was unable to release its parent or released slowly. Neuropharmacological effect of 12P was investigated in mice. 12 and 12P (50-100 mg/kg, i.p.) showed significant suppression on the hypermotility induced by methamphetamine. 12P (100 mg/kg, i.p.) was more potent than 12, 54.36% and 38.73% suppression, respectively. The result suggested the enhancement of brain delivery and the antagonism against aberrant dopamine release. In the water maze test, 12P (200 mg/kg) as well as tacrine (3 mg/kg) significantly reduced the learning and memory impairment induced by scopolamine (0.5 mg/kg). The results support the enhanced brain delivery and the additional role of radical scavengers in the modulation of brain neurotransmitters in the aberrant condition.     

Preparation of C-23 esterified silybin derivatives and evaluation of their lipid peroxidation inhibitory and DNA protective properties

A diverse series of C-23 esterified silybin derivatives (1a–n) were designed and synthesized. The antioxidative properties of these compounds were evaluated by 1,1-diphenyl-2-picrylhydrazyl (DPPH) and superoxide anion radical scavenging, ferrous ion chelation, and inhibition of rat liver homogenate lipid peroxidation. Their protective effects on the prevention of hydrogen peroxide induced DNA damage were also investigated. Most of the synthesized compounds exhibited more effective antioxidant activities than silybin. The esterified silybin analogues displayed satisfactory performance especially on iron chelation and antiperoxidative activity. Compound 1n in particular exhibited remarkable antiperoxidative effect with an IC₅₀ value of 0.2 ± 0.1 μM, which was stronger than that of quercetin (IC₅₀ = 1.8 ± 0.6 μM). Compounds 1c, 1e, 1g, 1h and 1k displayed potent, dose-dependent protective properties against DNA cleavage. The results of the bioassays support the antioxidative and DNA protective effects of these synthesized silybin derivatives.     

Inhibition of copper-induced lipid peroxidation by sinapic acid and its derivatives in correlation to their effect on the membrane structural properties

The efficiencies of sinapic acid and its derivatives syringic acid, syringaldehyde, three sinapoyl esters (ethyl, propyl, butyl sinapates), 4-vinylsyringol and sinapine were investigated for prevention of lipid peroxidation in correlation with their interactions with model lipid membrane systems. Significant antioxidant activities of propyl and butyl sinapates were seen by fluorimetric assay in phosphatidylcholine liposomes as model membrane using C11-BODIPY^581/591 lipophilic fluorescent probe. The sinapic acid esters also had the highest impact on membrane structural properties, as observed by differential scanning calorimetry and fluorescence polarisation measurements. The greatest protection of phospholipids from peroxidation by these esters correlated well with their polarity and insertion into the lipid bilayer.     

Effect of vitamin E supplementation on post-exercise plasma lipid peroxidation and blood antioxidant status in smokers: with special reference to haemoconcentration effect

The oxidative effects were investigated of exhausting exercise in smokers, and the possible protective role of 400 mg day(-1) vitamin E (Vit E) supplementation over a period of 28 days. The subjects exercised to exhaustion including concentric-eccentric contractions following maximal cycling. The haematocrit and haemoglobin, leucocyte (WBC), plasma lactic acid (La) and malondialdehyde (MDA), erythrocyte superoxide dismutase (SOD) and glutathione peroxidase (GPx), serum Vit E and ceruloplasmin (CER) concentrations were measured pre and post exercise. Supplementation increased Vit E concentrations 28% and 31% in the controls and the smokers, respectively. Cigarette smoking and/or Vit E supplementation did not influence plasma lipid peroxidation or the antioxidant status at rest. Exercise caused significant haemoconcentration in all groups. When the post-exercise concentrations were adjusted for haemoconcentration, a significant elevation in La concentrations due to exercise was observed in all groups. Similarly, there were significant elevations in the adjusted WBC counts in all groups except the Vit E supplemented controls. The MDA concentrations on the other hand, when adjusted for haemoconcentration, did not exhibit any difference due to exercise. Exercise did not affect the GPx and CER activities either, while causing a SOD activity loss in all groups except the Vit E supplemented non-smokers. Serum Vit E concentrations diminished significantly in all groups after exercise. Post-exercise plasma MDA and blood antioxidant concentrations were not altered by smoking. The results would suggest that plasma volume changes should always be taken into account when assessing post-exercise plasma concentrations and that smoking and exercise do not have an additional collective effect on plasma lipid peroxidation and the dose of Vit E administered was insufficient to maintain the serum concentrations after exercise.     

Antioxidant activities of 5-hydroxyoxindole and its 3-hydroxy-3-phenacyl derivatives: The suppression of lipid peroxidation and intracellular oxidative stress

The antioxidant activities of 5-hydroxyoxindole (1) and newly synthesized 3,5-dihydroxy-3-phenacyl-2-oxindole derivatives against rat liver microsome/tert-butylhydroperoxide system-induced lipid peroxidation and hydrogen peroxide-induced intracellular oxidative stress were investigated. Compound 1 and its derivatives showed significant suppression of lipid peroxidation and an intracellular oxidative stress. The effects of the more lipophilic derivatives tended to be greater than that of the original compound 1. The cytotoxicity of all of the oxindole derivatives on human promyelocytic leukemia HL60 cells was lower than that of 2,6-di(tert-butyl)-4-hydroxytoluene (BHT), a widely used phenolic antioxidant. These results show that compound 1 and its 3-substituted derivatives could be good lead candidates for future novel antioxidant therapeutics.     

Indices of lipid peroxidation in vivo: strengths and limitations

Oxidant stress has been widely implicated as a mechanism of disease, yet clinical trials of antioxidants have not included a biochemical basis for dose selection or patient inclusion. Many of the indices traditionally employed to assess lipid peroxidation have relied on measurements performed in ex vivo systems of questionable relevance to events in vivo. Commonly employed in vivo indices of lipid peroxidation are constrained by such issues as the nonspecificity or instability of the target anylate, contamination of the anylate by events ex vivo, and nonspecificity of analytical methodology. More recently, specific methodology based on mass spectrometry has been applied to both 4-hydroxynonenal and a variety of isoprostanes in human biological fluids. Measurement of these compounds in urine reflects lipid peroxidation in vivo and offers a noninvasive approach that may be readily applied to clinical trials.     

Free fatty acids,lipid peroxidation,and lysosomal enzymes in experimental focal cerebral ischemia in primates: Loss of lysosomal latency by lipid peroxidation

Experimental focal cerebral ischemia was produced in monkeys (Macaca radiata) by occlusion of the right middle cerebral artery (MCA). The release of the lysosomal glycosidases, -d-hexosaminidase, -l-fucosidase and -d-mannosidase into the soluble fraction in the right basal ganglia of the experimental animals was measured at different periods from 30 min to 12 hr after occlusion and compared with the corresponding sham operated control animals. There was a significant increase in the released lysosomal enzymes in the MCA occluded animals at all periods and particularly at 4 hr after occlusion. The CSF from the experimental animals also showed elevated levels of hexosaminidase and fucosidase. The free fatty acids (FFA) measured in the basal ganglia at 30 min and 2 hr after occlusion showed a 100 fold increase in the experimental animals. The predominant fatty acid released was linoleic acid (18:2) followed by arachidonic acid (20:4). Lipid peroxidation in the basal ganglia measured by the thiobarbituric acid (TBA) reaction in the presence or absence of ascorbic acid also showed a significant increase in the experimental animals at all periods with a maximum at 30 min to 2 hr after occlusion. In order to assess whether lipid peroxidation causes damage to the lysosomes and release of the enzymes, a lysosome enriched P₂ fraction from the normal monkey basal ganglia was prepared and the effect of peroxidation studied. Maximum peroxidation in the P₂ fraction was observed in the presence of arachidonic acid, ascorbic acid and Fe²⁺. There was a good correlation between the extent of lipid peroxidation and the in vitro release of lysosomal hexosaminidase from the P₂ fraction. Anti-oxidants which strongly inhibited lipid peroxidation in the P₂ fraction prevented the release of hexosaminidase. The results suggested that in ischemia produced by MCA occlusion lipid peroxidation which damages the lysosomal membrane causes the release of lysosomal hydrolytic enzymes.Abbreviations used BHA butylated hydroxyanisole - BHT butylated hydroxytoluene - FFA free fatty acids - MCA middle cerebral artery - MDA malonaldehyde - PUFA polyunsaturated fatty acids - TBA thiobarbituric acid     

Cryopreservation of epididymal cat spermatozoa: effects of in vitro antioxidative enzymes supplementation and lipid peroxidation induction

Reactive oxygen species and lipid peroxidation reaction, causes of sperm damage, can be diminished by action of antioxidative enzymes. This study aimed to investigate effects of (1) the antioxidative enzymes; catalase, glutathione peroxidase and superoxide dismutase, on epipididymal cat sperm quality and (2) the lipid peroxidation reaction induced by a transition metal (ferrous ion (II); Fe²⁺) on sperm quality during the cryopreservation process. Epididymal spermatozoa harvested from 39 male cats were pooled and divided into 13 aliquots (n = 13). Each aliquot was resuspended with either a Tris egg yolk extender I (control; EE-I), or the Tris egg yolk extender I supplemented with 200 U/mL catalase (EE-CAT), or 10 U/mL glutathione peroxidase (EE-GPx), or 600 U/mL superoxide dismutase (EE-SOD), and then cryopreserved. After thawing, each sperm sample was subdivided into two groups; with and without lipid peroxidation induction (EE-I plus Fe²⁺, EE-CAT plus Fe²⁺, EE-GPx plus Fe²⁺ and EE-SOD plus Fe²⁺). Subjective sperm motility, membrane, and acrosome integrity were evaluated at the time of collection, after cooling, and at 0, 2, 4, and 6 h after thawing. Motility patterns assessed by computer-assisted sperm analysis (CASA), mitochondrial activity, and DNA integrity were evaluated during post-thaw incubation, whereas percentage of lipid peroxidation was detected at 0 and 6 h after thawing. The results demonstrate that catalase supplementation reduced linear motility and subjective motility immediately and 2 h after thawing (P < 0.05). Catalase supplementation, however, improved DNA integrity at 4 h (P < 0.05). Supplementation with glutathione peroxidase, compared to the control group, had a statistically significant positive effect on subjective motility at 0 and 6 h, linear motility at 6 h, mitochondrial activity at 6 h, membrane integrity at 2 and 6 h, and DNA integrity at 4 h after thawing. Although superoxide dismutase had a positive effect on sperm membrane integrity at 2 h after thawing (P < 0.05), it significantly reduced membrane integrity after cooling, linear motility at thawing, and acrosome integrity at 2 h after thawing. None of the three selected antioxidative enzymes significantly influenced acrosome integrity and none reduced the level of lipid peroxidation. Furthermore, induction of the lipid peroxidation reaction by Fe²⁺ negatively affected most of the sperm quality parameters, i.e., motility and DNA integrity, during post-thaw sperm incubation (P < 0.05). After thawing, there were, however, no significant differences between the control plus Fe²⁺ and the antioxidative enzymes supplementation plus Fe²⁺ groups. We can conclude that (1) glutathione peroxidase exhibits positive effects on post-thaw epididymal cat spermatozoa; but (2) none among the selected antioxidative enzymes could improve all sperm quality parameters; and (3) the lipid peroxidation reaction may be one cause of post-thaw epididymal sperm damage in cats, but the concentrations of antioxidative enzymes used in this study could not protect cat spermatozoa from lipid peroxidation induction.     

Inhibition of O2-- and HO - Mediated Processes by a New Class of Free Radical Scavengers: The N-ACYL Dehydroalanines

N-phenylacetyl dehydroalanines are captodative olefins. They inhibit two processes mediated by superoxide anion (O₂-) in a concentration dependent manner: reduction of NBT to blue formazan and oxidation of epinephrine to adrenochrome. They also inhibit in a dose related way the degradation of deoxyribose produced during either the Fenton reaction or the radiolysis of water, which are the two experimental sources of hydroxyl radical (HO^-) production. Based on the results obtained with superoxide dismutase, mannitol, thiourea, and uric acid, we postulate that these competitive inhibitory effects suggest a reaction between the dehydroalanine derivatives and the two oxygen derived radicals. Hydroxyl free radical is scavenged more efficiently than superoxide anion. Substitution of the phenyl ring by methoxy groups does not modify significantly the activity. These molecules possess three target active sites which can react with free radicals.     

Cold-stress-induced modulation of antioxidant defence: role of stressed conditions in tissue injury followed by protein oxidation and lipid peroxidation

The aim of this study was to determine the effects of cold stress on antioxidant enzyme activities and examine protein oxidation and lipid peroxidation in various tissues (brain, liver, kidney, heart and stomach). Twenty male Wistar rats (3 months old) weighing 220 ± 20 g were used. The rats were randomly divided into two groups of ten: the control group and the cold stress group. Cold stress was applied to the animals by maintaining them in a cold room (5 °C) for 15 min/day for 15 days. Blood samples were taken for measuring plasma corticosterone levels. Tissues were obtained from each rat for measuring the antioxidant enzyme activities, protein oxidation and lipid peroxidation. Corticosterone levels were increased in the cold stress group. Copper, zinc superoxide dismutase activities were increased in the brains, livers and kidneys, whereas they decreased in the hearts and stomachs of rats in the cold stress group. Catalase activities were increased in the brains, livers, kidneys and hearts, whereas they decreased in the stomachs of rats in the cold stress group. Selenium-dependent glutathione peroxidase activities were increased in the brain, liver, heart and stomach. Reduced glutathione levels were decreased, while levels of protein carbonyl, conjugated diene and thiobarbituric-acid-reactive substances were increased in all tissues of the cold stress group. These results lead us to conclude that cold stress can disrupt the balance in an oxidant/antioxidant system and cause oxidative damage to several tissues by altering the enzymatic and non-enzymatic antioxidant status, protein oxidation and lipid peroxidation.     

Inhibition of lipid peroxidation by botanical extracts of Ocimum sanctum: in vivo and in vitro studies

Ocimum sanctum, the Indian holy basil, has significant ability to scavenge highly reactive free radicals. Shade dried leaf powder of the plant was extracted with water and alcohol, and then fractionated with different solvents. Both extracts and their fractions have in vitro anti-lipidperoxidative activity at very low concentrations. In vivo, hypercholesterolemia-induced erythrocyte lipid peroxidation activity was inhibited by aqueous extracts of Ocimum in a dose-dependent manner in male albino rabbits. Aqueous extract feeding also provided significant liver and aortic tissue protection from hypercholesterolemia-induced peroxidative damage.     

Catechin as an antioxidant in liver mitochondrial toxicity: Inhibition of tamoxifen-induced protein oxidation and lipid peroxidation

Tamoxifen (TAM) is a nonsteroidal triphenylethylene antiestrogenic drug widely used in the treatment and prevention of breast cancer. TAM brings about a collapse of the mitochondrial membrane potential. It acts both as an uncoupling agent and as a powerful inhibitor of mitochondrial electron transport chain. The effect of catechin pretreatment on the mitochondrial toxicity of TAM was studied in liver mitochondria of Swiss albino mice. TAM treatment caused a significant increase in the mitochondrial lipid peroxidation (LPO) and the protein carbonyls (PCs). It also caused a significant increase in superoxide radical production. Pretreatment of mice with catechin (40 mg/kg) showed significant protection as demonstrated by marked attenuation of increased oxidative stress parameters such LPO, PCs, and superoxide production. It also restored the decreased nonenzymatic and enzymatic antioxidants of mitochondria. The inhibitory effect of catechin on TAM-:induced oxidative damage suggests that it may have potential benefits in prevention of human diseases where reactive oxygen species have some role as causative agents.     

Formation of α-tocopherol radical and recycling of α-tocopherol by ascorbate during peroxidation of phosphatidylcholine liposomes: An electron paramagnetic resonance study

The events accompanying the inhibitory effect of α-tocopherol and/or ascorbate on the peroxidation of soybean L-α-phosphatidylcholine liposomes, which are an accepted model of biological membranes, were investigated by electron paramagnetic resonance, optical and polarograpic methods. The presence of α-tocopherol radical in the concentration range 10^?8–10^?7 M was detected from its EPR spectrum during the peroxidation of liposomes, catalysed by the Fe³⁺-triethylnetatramine complex. The α-tocopherol radical, generated in the phosphatidylcholine bilayer, is accessible to ascorbic acid, present in the aqueous phase at physiological concentrations. Ascorbic acid regenerates from it the α-tocopherol itself. A kinetic rate constant of about 2·10⁵ M^?·s^?1 was estimated from the reaction as it occurs under the adopted experimental conditions. The scavenging effect of α-tocopherol on lipid peroxidation is maintained as long a ascorbic acid is present.     

Vanillin as an antioxidant in rat liver mitochondria: Inhibition of protein oxidation and lipid peroxidation induced by photosensitization

Using rat liver mitochondria, as model systems, we have examined the ability of the natural compound and the food-flavoring agent, vanillin to protect membranes against oxidative damage induced by photosensitization at concentrations normally used in food preparations. Vanillin, at a concentration of 2.5 mmol/L, has afforded significant protection against protein oxidation and lipid peroxidation in hepatic mitochondria induced by photosensitization with methylene blue plus light. The effect observed was both time- and concentration-dependent. The inhibitory effect is similar to ascorbic acid and the singlet oxygen quencher, diazabicyclo[2.2.2]octane (DABCO) but less effective than sodium azide and glutathione. Examination of possible mechanisms responsible for the observed protection, showed that vanillin has a significant ability to quench singlet oxygen (¹O₂), a reactive species responsible for damage induced during photosensitization by Type II mechanism. Hence, this flavoring compound, due to its antioxidant ability, may have potential to prevent oxidative damage to membranes in mammalian tissues and thereby the ensuing diseased states.     

Antioxidant activity of aminodiarylamines in the thieno[3,2-b]pyridine series: radical scavenging activity,lipid peroxidation inhibition and redox profile

Abstract

The antioxidant activity of the aminodi(hetero)arylamines, prepared by C–N coupling of the methyl 3-aminothieno[3,2-b]pyridine-2-carboxylate with bromonitrobenzenes and further reduction of the obtained nitro compounds, was evaluated by chemical, biochemical and electrochemical assays. The aminodi(hetero)arylamine with the amino group ortho to the NH and a methoxy group in para, was the most efficient in radical scavenging activity (RSA, 63?µM) and reducing power (RP, 33?µM), while the aminodiarylamine with the amino group in para to the NH, gave the best results in β-carotene-linoleate system (41?µM) and inhibition of formation of thiobarbituric acid reactive substances in porcine brain cells homogenates (7?µM), with EC₅₀ values even lower than those obtained for the standard trolox. This diarylamine also presented the lowest oxidation potential, lower than the one of trolox, and the highest antioxidant power in the electrochemical assays. The para substitution with an amino group enables higher antioxidant potential.     

Insight into the structural requirements of aminopyrimidine derivatives for good potency against both purified enzyme and whole cells of M. tuberculosis: combination of HQSAR,CoMSIA, and MD simulation studies

The Mycobacterium tuberculosis protein kinase B (PknB) is critical for growth and survival of M. tuberculosis within the host. The series of aminopyrimidine derivatives show impressive activity against PknB (IC₅₀ < .5 μM). However, most of them show weak or no cellular activity against M. tuberculosis (MIC > 63 μM). Consequently, the key structural features related to activity against of both PknB and M. tuberculosis need to be investigated. Here, two- and three-dimensional quantitative structure–activity relationship (2D and 3D QSAR) analyses combined with molecular dynamics (MD) simulations were employed with the aim to evaluate these key structural features of aminopyrimidine derivatives. Hologram quantitative structure–activity relationship (HQSAR) and CoMSIA models constructed from IC₅₀ and MIC values of aminopyrimidine compounds could establish the structural requirements for better activity against of both PknB and M. tuberculosis. The NH linker and the R₁ substituent of the template compound are not only crucial for the biological activity against PknB but also for the biological activity against M. tuberculosis. Moreover, the results obtained from MD simulations show that these moieties are the key fragments for binding of aminopyrimidine compounds in PknB. The combination of QSAR analysis and MD simulations helps us to provide a structural concept that could guide future design of PknB inhibitors with improved potency against both the purified enzyme and whole M. tuberculosis cells.     

Oxidative stress in Perna perna and other bivalves as indicators of environmental stress in the Brazilian marine environment: Antioxidants, lipid peroxidation and DNA damage

Oxidative stress can take place in marine bivalves under a series of environmental adverse conditions. The study of different systems related to oxidative stress in these organisms can give important information about their physiological status and also about environmental health. Bivalves have been proposed as good sentinel organisms in pollution monitoring studies through the analysis of biochemical biomarkers, and most of the biomarkers analyzed are those related to oxidative stress. However, it is very important to know how other environmental factors not associated to the presence of pollutants might affect these parameters. We have studied a series of mechanisms related to oxidative stress in mussels which inhabit the Brazilian coast, especially in Perna perna species, subjected to different stress conditions, such as the exposure to different contaminants in the laboratory and in the field, the exposure of mussels to air and re-submersion, simulating the tidal oscillations, and in mussels collected at different seasons. Both oxidative damage levels and antioxidant defense systems were strongly affected by the different environmental stress. This review summarizes the data obtained in some studies carried out in bivalves from the Brazilian coast.     

Facile synthesis and stereochemical investigation of Mannich base derivatives: evaluation of antioxidant property and antituberculostic potency

A mini-library of diversely substituted 2,4-diaryl-3-azabicyco[3.3.1]nonan-9-one O-methyloximes and their N-methyl analogs were synthesized by a non-laborious, modified and an optimized Mannich condensation in good yields. Both the ring N-methylation and oxime O-methylation were employed by various methods; of them, the usage of ^tBuOK was found to be the superior in terms of good yield in short time. Stereochemistry of all the synthesized compounds was unambiguously established by their NMR spectral (¹H, ¹³C, ¹H-¹H COSY, ¹H-¹³C one and multiple bond COSY and NOESY) as well as single-crystal XRD studies. Irrespective of the nature and position of the substituents, all the synthesized oxime ethers of the bicyclic Mannich bases as well as their N-methyl analogs adopted the twin-chair conformation with equatorial orientations of all the substituents. All the synthesized oxime ethers were evaluated for their antioxidant property by DPPH radical scavenging method. According to the structure-activity correlations, compound 4y was found to be a lead molecule with the IC₅₀ of 0.187 mg/mL. Thus, the present study exploits the scope of finding more active analogs by further optimization with the incorporation of more electron enriched alkoxy/amino and/or phenolic groups on the heterocycle as well as oxime ether pharmacophore. Most of the synthesized molecules were screened for their antituberculostic potency against Mycobacterium tuberculosis H₃₇Rv by zone of inhibition method. Of them, 4w/5d and 4x showed very promising inhibition zones of 21 and 23 mm, respectively, which leads to the optimization of 4x by introducing various substituents on the O-benzyl moiety to enhance the antituberculostic potency.