Lipid peroxide and transition metals are required for the toxicity of oxidized low density lipoprotein to cultured endothelial cells

Kuzuya, Fumio, Asai, Kanichi, Hayashi, Toshio, Funaki, Chiaki, Naito, Michitaka, Kuzuya, Masafumi

02 1900

名古屋大学博士学位論文 学位の種類 : 博士(医学)(課程) 学位授与年月日:平成3年3月8日 葛谷雅文氏の博士論文として提出された

(Bovine aortic endothelial cell)

Transition metal

Cytotoxicity

Lipid peroxidation

Altherosclerosis

Oxidized los density lipoprotein

MITOCHONDRIAL AND NEUROPROTECTIVE EFFECTS OF PHENELZINE RELATED TO SCAVENGING OF NEUROTOXIC LIPID PEROXIDATION PRODUCTS

Cebak, John

01 January 2015

Lipid peroxidation is a key contributor to the pathophysiology of traumatic brain injury (TBI). Traditional antioxidant therapies are intended to scavenge the free radicals responsible for either the initiation or propagation of lipid peroxidation (LP). However, targeting free radicals after TBI is difficult as they rapidly react with other cellular macromolecules, and thus has a limited post-injury time window in which they may be intercepted by a radical scavenging agent. In contrast, our laboratory has begun testing an antioxidant approach that scavenges the final stages of LP i.e. formation of carbonyl-containing breakdown products. By scavenging breakdown products such as the highly reactive and neurotoxic aldehydes (often referred to as “carbonyls”) 4-hydroxynonenal (4-HNE) and acrolein (ACR), we are able to prevent the covalent modification of cellular proteins that are largely responsible for posttraumatic neurodegeneration. Without intervention, carbonyl additions render cellular proteins non-functional which initiates the loss of ionic homeostasis, mitochondrial failure, and subsequent neuronal death. Phenelzine (PZ) is an FDA-approved monoamine oxidase (MAO) inhibitor traditionally used for the treatment of depression. Phenelzine also possesses a hydrazine functional group capable of covalently binding neurotoxic carbonyls. The hypothesis of this dissertation is that carbonyl scavenging with PZ will exert an antioxidant neuroprotective effect in the traumatically injured rat brain mechanistically related to PZ’s hydrazine moiety reacting with the lipid peroxidation (LP)-derived reactive aldehydes 4-hydroxynonenal (4-HNE) and acrolein (ACR). Data from our ex vivo experiments demonstrate that the exogenous application of 4-HNE or ACR significantly reduced respiratory function and increased markers of oxidative damage in isolated non-injured rat cortical mitochondria, whereas PZ pre-treatment significantly prevented mitochondrial dysfunction and oxidative modification of mitochondrial proteins in a concentration-related manner. Additionally, PZ’s neuroprotective scavenging mechanism was confirmed to require the presence of a hydrazine moiety based on experiments with a structurally similar MAO inhibitor, pargyline, which lacks the hydrazine group and did not protect the isolated mitochondria from 4-HNE and ACR. Our in vivo work demonstrates that subcutaneous injections of PZ following TBI in the rat are able to significantly protect brain mitochondrial respiratory function, decrease markers of oxidative damage, protect mitochondrial calcium buffering capacity, and increase cortical tissue sparing without decreasing neuronal cytoskeletal spectrin degradation. These results confirm that PZ is capable of protecting mitochondrial function and providing neuroprotection after experimental TBI related to scavenging of neurotoxic LP degradation products.

phenelzine

lipid peroxidation

4-hydroxynonenal

acrolein

brain mitochondria

Medical Neurobiology

Medical Pharmacology

Neurosciences

The effects of selenium and vitamin E intake on diet-induced oxidative stress and hyperlipidemia /

Poirier, Johanne, 1959-

January 2000

To examine the effects of fat composition and supplemental vitamin E (Vit E) and selenium (Se) on in vivo lipid peroxidation, diet-induced hypercholesterolemia, and glutathione (GSH) metabolism, male Syrian hamsters were fed for three weeks butter fat (BF-) or fish oil- (FO-)based diets supplemented with Vit E and/or Se. The effect of supplemental Vit E and Se on tissue lipid peroxidation (LPO), glutathione peroxidase (GSH-Px) activity and GSH concentrations differed between heart and liver and also was affected by dietary fat. The reduced glutathione/oxidized glutathione (GSH/GSSG) ratio was more consistently associated with tissue lipid peroxidation than was tissue Vit E content. Plasma lipids were lowered with supplemental Se and Vit E. Se supplementation, however, exerted a more potent hypolipidemic effect than Vit E. A pro-oxidative action of Se in hearts of FO-fed hamsters was noted, which was inhibited by supplemental Vit E. Hence, the combination of Vit E and Se may offer the most benefit against diet-induced oxidative stress and hyperlipidemia.

Membrane lipids -- Peroxidation.

Hyperlipidemia.

Glutathione -- Metabolism.

Selenium -- Physiological effect.

Selenium in human nutrition.

Vitamin E -- Physiological effect.

Effects of vitamins E and C on exercise-induced lipid peroxidation

Bryant, Rebecca Jane

January 1996

The aim of this study was to examine whether vitamins E (200 IU) and C (1 g) in combination would influence exercise-induced lipid peroxidation to a greater extent than vitamin E (400 IU) alone. A placebo-controlled study was carried out on 7 collegiate cyclists who were supplemented with 1) vitamin C (1 g); 2) vitamins E (200 IU) and C (1 g); and vitamin E (400 IU) during 3 treatments, each 3 weeks in duration. The serum concentrations of hematocrit and MDA, one marker of lipid peroxidation, were measured immediately before, immediately after, and 24 hours after each exercise bout. After the vitamin C treatment, MDA serum concentration of the athletes (n=7) increased 85% above the baseline values of the placebo values, the vitamin E/C treatment showed a 29% increase, and the vitamin E treatment showed a 39% decrease. Pre- to post-exercise serum MDA levels increased 64% in the placebo group, a 29% increase in the vitamin C treatment group, a 23.2% increase in the vitamins E/C treatment group, and a 46.9% increase in the vitamin E treatment group. It is concluded that exercise-induced lipid peroxidation is more greatly influenced post-exercise by a combination of vitamins E (200 IU) and C (1 g), than by either vitamin C (1 g) alone, or vitamin E (400 IU) alone. / Department of Family and Consumer Sciences

Peroxidation.

Blood lipids.

Vitamin E -- Physiological effect.

Vitamin C -- Physiological effect.

Exercise -- Physiological aspects.

Hepatocyte Cytotoxicity Induced by Hydroperoxide (Oxidative Stress Model) or Dicarbonyls (Carbonylation Model): Prevention by Bioactive Nut Extracts or Catechins

Banach, Monica Sofia

16 December 2009

Carbonyl and oxidative stress augment the development of diabetic complications. We evaluated the cytoprotectiveness of walnut and hazelnut extracts and catechins for decreasing cytotoxicity, lipid peroxidation, reactive oxygen species (ROS) formation, and protein carbonylation in cell death models of carbonyl and oxidative stress. Polar extracts (methanol or water) showed better cytoprotection than the non-polar (ethyl acetate) nut extracts against hydroperoxide-induced hepatocyte cell death and oxidative stress markers. Catechin flavonoids found in plants, including walnuts and hazelnuts, prevented serum albumin carbonylation in a carbonyl stress model (using glyoxal or methylglyoxal). Hepatocyte protein carbonylation and cell death were prevented and UV spectra data suggested a catechin:methylglyoxal adduct was formed. We conclude that (a) bioactive nut constituents in polar extracts were more protective than non-polar extracts against oxidative stress, and (b) catechins were effective under physiological temperature and pH, at preventing dicarbonyl induced cytotoxicity likely by trapping dicarbonyls or reversing early stage carbonylation.

0491

Hepatocyte Cytotoxicity Induced by Hydroperoxide (Oxidative Stress Model) or Dicarbonyls (Carbonylation Model): Prevention by Bioactive Nut Extracts or Catechins

Banach, Monica Sofia

16 December 2009

Carbonyl and oxidative stress augment the development of diabetic complications. We evaluated the cytoprotectiveness of walnut and hazelnut extracts and catechins for decreasing cytotoxicity, lipid peroxidation, reactive oxygen species (ROS) formation, and protein carbonylation in cell death models of carbonyl and oxidative stress. Polar extracts (methanol or water) showed better cytoprotection than the non-polar (ethyl acetate) nut extracts against hydroperoxide-induced hepatocyte cell death and oxidative stress markers. Catechin flavonoids found in plants, including walnuts and hazelnuts, prevented serum albumin carbonylation in a carbonyl stress model (using glyoxal or methylglyoxal). Hepatocyte protein carbonylation and cell death were prevented and UV spectra data suggested a catechin:methylglyoxal adduct was formed. We conclude that (a) bioactive nut constituents in polar extracts were more protective than non-polar extracts against oxidative stress, and (b) catechins were effective under physiological temperature and pH, at preventing dicarbonyl induced cytotoxicity likely by trapping dicarbonyls or reversing early stage carbonylation.

0491

The Effects Of Antioxidants On Some Rat Tissues And Membranes

Gorgulu, Guvenc

01 April 2004

High blood glucose levels induce metabolic disorders that initiate a sequence of events including renal, arterial, cardiac and retinal disorders. Diabetes mellitus increases oxidative stress in tissues of animals including humans. The resulting oxidative stress might play role in the development of diabetic complications. In the present study, 36 male Wistar rats (250-300g) were divided into 5 groups as Control (n=6), Diabetic (n=7), Diabetic + Vit C (n=7), Diabetic + &amp / #945 / -Lipoic acid (n=6) and Diabetic + Combination of Vit C and &amp / #945 / -Lipoic acid (n=10). From the livers of all groups cytoplasmic and microsomal membrane fractions were prepared from liver and antioxidant enzymes namely, superoxide dismutase, glutathione peroxidase, catalase and glutathione S-transferase activities were measured. Microsomal lipid peroxidation, total lipid, total protein, reduced glutathione levels of each group was determined and compared. Microsomal fractions were also analyzed by FT-IR spectroscopy. The total protein levels of diabetic rats were found to be decreased significantly (p&lt / 0.05) compared to controls and the &amp / #945 / -lipoic acid and vitamin C supplemented groups tend to compensate the decreased levels of total proteins. Decreased catalase activity in diabetic group compared to control was restored by &amp / #945 / -lipoic acid, vitamin C treatment and/or combination of both. Increased glutathione peroxidase activity was decreased to control levels by the treatement of both &amp / #945 / -lipoic acid and vitamin C. Superoxide dismutase activities of diabetic rats were increased (p&lt / 0.05) compared to control group. Whereas glutathione S-transferase activities though showed some fluctuations, the results were not statistically significant. Total glutathione levels decreased in all groups significantly (p&lt / 0.0.5) compared to control group but any of the agent failed to compensate the reduced levels of glutathione. As an index of lipid peroxidation, TBA-reactivity (MDA) levels increased significantly in all diabetic groups and only combination group&rsquo / s TBARS levels decreased significantly compared to diabetic group. FT-IR study of rat liver microsomal membranes was carried out in order to understand the effects of diabetes on membrane order, dynamics and lipid peroxidation status. For this purpose CH2 symmetric wavenumber, CH2 antisymmetric bandwidth, =CH olefinic band area were compared. In temperature dependent FT-IR studies microsomal membrane phase behavior, order and dynamics were analyzed. Diabetic samples showed apparent decrease in both frequency and bandwidth. =CH olefinic band integrated area was increased for diabetic samples compared to controls. Alpha-lipoic acid and vitamin C supplemented groups showed similar effects. They tend to restore decreased levels of band frequency and bandwidth. Additive effect between &amp / #945 / -lipoic acid and vitamin C was seen in some cases that only the combination group achieved to restore control values while &amp / #945 / -lipoic acid and vitamin C were failed to restore alone. In conclusion, STZ-induced diabetes mainly caused an increase in antioxidant enzyme activities. Also, increase in lipid peroxidation caused a decrease in the fluidity and order of the membrane resulting in more rigid membrane structures. The loss of cooperation between the antioxidant network may play a role in the secondary complications of diabetes.

QH Life 501-531

Antioxidant Enzyme Activities In Rat Liver Tissues Of Diabetic Rats

Sadi, Gokhan

01 September 2004

Free radicals are the compounds having one or more unpaired electrons in their outer orbital and this unpaired electron make these compounds very reactive. Especially as their concentration increases, they initiate a chain oxidation reaction of lipids, proteins and nucleic acids. The condition, in which the production of free radicals exceeds their elimination or tissue defense mechanism decrease against them or both occur together, is called oxidative stress. In diabetes mellitus which is a glucose metabolism disorder, there occurs excessive non-enzymatic protein oxidation, glucose autoxidation and enhanced activity of polyol pathway enzymes, which are the possible sources of the oxidative stress in this disease. In this study, the conditions of the activity measurements of major antioxidant enzymes, namely superoxide dismutase (SOD, EC 1.15.1.1), catalase (CAT, EC 1.11.1.6), glutathione peroxidase (GPx, 1.11.1.9) and glutathione S-transferase (GST, EC 2.5.1.18) were studied and the optimum conditions (pH, temperature and substrate concentrations) for each assay were determined. Further objectives of the study were to characterize the enzymatic antioxidant systems (catalase, superoxide dismutase, glutathione peroxidase and glutathione S-transferase), tissue oxidation status (concentrations of TBARS, protein carbonylation, and lipid/protein ratios) and nonenzymatic antioxidant (reduced glutathione) levels of the diabetic rat liver tissues. According to our results, the hepatic SOD and GPx activities significantly increased whereas CAT activity markedly decreased in diabetic rats compared to control group. Also, GST activities did not change in diabetes. As a result of oxidative stress, TBARS concentration, lipid/protein ratios and protein carbonylation increased and GSH levels decreased in diabetic rats compared to control rats. This increase in tissue damage, in spite of the increase in antioxidant enzyme activities, could have been due to the overproduction of reactive oxygen species that exceeded the capacity of the antioxidant enzymes during the eight week of diabetes.

QD Biochemistry 415-436

Screening For Antioxidant Activities Of Several Medicinal Plant Extracts And Their Effects On Glutathione-s-transferase Activity

Sagdicoglu Celep, Gulcin Adviye

01 May 2005

SCREENING FOR ANTIOXIDANT ACTIVITIES OF SEVERAL MEDICINAL PLANT EXTRACTS AND THEIR EFFECTS ON GLUTATHIONE-S-TRANSFERASE ACTIVITY ABSTRACT Sagdi&ccedil / oglu Celep, A. G&uuml / l&ccedil / in Ph.D., Department of Biochemistry Supervisor: Assoc. Prof. Nursen &Ccedil / oruh May 2005, 154 pages The consumption of fresh fruits, vegetables, and medicinal plants are known to be associated with a long life span and low incidence of oxidative stress related diseases such as Alzheimer&amp / #8217 / s, Parkinson&amp / #8217 / s, cancer, aging and cardiovascular diseases. Fitotherapeutic effects of medicinal plants is virtually attributable to their phenolic compounds with low cytotoxicity. In this study, plants used in Anatolian folk medicine for their effects such as antiinflammatory, antiulcer, antipyretic, fertility, analgesic and aphrodisiac, namely Aesculus hippocastanum L., Papaver bracteatum L., Urtica urens L., Gundelia tournefortii L., Prangos ferulacea L., Chaerophyllum macropodum Boiss., Heracleum persicum Desf., Allium vineale L., Aconitum cochleare Woroschin, Rheum ribes L., Ferula rigidula DC., Rosa heckeliana Tratt, were screened for their antioxidative effects. Antioxidant characteristics of the specified plants were studied using lipid peroxidation inhibiton and DPPH radical scavenging methods. Total phenolics content and their effects on glutathione-S-transferase activity of the plants were further investigated. Rheum ribes L, Ferula rigidula DC, Rosa heckeliana Tratt., Prangos ferulacea L. were found to be very effective antioxidants and also effective inhibitors for glutathione-S-transferase activities among the plants. Rosa heckeliana Tratt. root extracts exhibited very high total phenolics content (0.7 mg/mg of extract) and antioxidant activity with IC50 values of 11.2 &micro / g/mL and 5.1 &micro / g/mL for DPPH scavenging and lipid peroxidation inhibition, respectively. Ferula rigidula DC was identified as the most potent inhibitor for glutathione-S-transferase activity, with IC50 values of 49 &micro / g/mL.

Functional modification of cardiac mitochondria in type-I diabetes

Lashin, Ossama M.

January 2005

Thesis (Ph. D.)--Case Western Reserve University, 2005. / [School of Medicine] Department of Physiology and Biophysics. Includes bibliographical references. Available online via OhioLINK's ETD Center.