Alexander V. Vavaev scite author profile

Alexander V. Vavaev

5Publications

62Citation Statements Received

207Citation Statements Given

How they've been cited

How they cite others

129

191

Affiliations

Institute of Experimental Cardiology, Ministry of Health of the Russian Federation

Publications

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Antioxidant Enzymes as Potential Targets in Cardioprotection and Treatment of Cardiovascular Diseases. Enzyme Antioxidants: The Next Stage of Pharmacological Counterwork to the Oxidative Stress

Maksimenko

Vavaev

2012

Heart International

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The focus in antioxidant research is on enzyme derivative investigations. Extracellular superoxide dismutase (EC-SOD) is of particular interest, as it demonstrates in vivo the protective action against development of atherosclerosis, hypertension, heart failure, diabetes mellitus. The reliable association of coronary artery disease with decreased level of heparin-released EC-SOD was established in clinical research. To create a base for and to develop antioxidant therapy, various SOD isozymes, catalase (CAT), methods of gene therapy, and combined applications of enzymes are used. Covalent bienzyme SOD-CHS-CAT conjugate (CHS, chondroitin sulphate) showed high efficacy and safety as the drug candidate. There is an evident trend to use the components of glycocalyx and extra-cellular matrix for target delivery of medical substances. Development of new enzyme antioxidants for therapeutic application is closely connected with progress in medical biotechnology, the pharmaceutical industry, and the bioeconomy.

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Effect of Hydrogen Peroxide and Catalase Derivatives on Functional Activity of Platelets

et al. 2012

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Effects of H(2)O(2) on platelet aggregation were estimated in vitro in the presence and absence of inductors (ADP, serotonin, TRAP) and native and modified catalase. Dose-dependent effect of H(2)O(2) (50 μM or more) was investigated in a pathophysiological concentration of 300 μM inducing platelet aggregation. H(2)O(2) modulated aggregation induced by ADP, serotonin, and TRAP significantly increasing the initial platelet aggregation followed by disaggregation, which was always more pronounced than in control. Catalase derivatives (native and modified forms) dose-dependently reduced the effect of H(2)O(2) and completely abolished it in a dose of 9000 U catalase activity per 1 ml of solution for native catalase and 1200 U/ml for modified one. Modified catalase, in contrast to native one, produced an independent inhibitory effect on induced platelet aggregation. Components of modified catalase (individual substance and simple mixture) had no antiaggregant effect.

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Biopharmacology of Enzyme Conjugates: Vasoprotective Activity of Supramolecular Superoxide Dismutase-Chondroitin Sulfate-Catalase Derivative

et al. 2010

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Bienzyme conjugate was obtained by the covalent connection of superoxide dismutase with catalase through endothelial glycocalyx glycosaminoglycan – chondroitin sulfate (SOD-CHS-CAT). This SOD-CHS-CAT conjugate has vasoprotective activity in respect to platelet interactions, tonus of the ring arterial fragment of a rat blood vessel, as well as normalization of hemodynamic parameters in rats and rabbits in conditions of oxidative stress caused by the administration of hydrogen peroxide. The SOD-CHS-CAT conjugate had antiplatelet potential due to its antiaggregation action manifested through the combination of enzyme activities and an acquired supramolecular structure. The influence on arterial fragment tonus was equivalent for SOD and CAT in native and conjugated form. Blood pressure and heart rate were significant and effectively normalized with SOD-CHS-CAT conjugate in rats and rabbits (after hydrogen peroxide administration as a perturbance stimulus). We have discovered the possibility of using the antioxidant bienzyme conjugate in chronic prophylaxis. It is important for a real development of the oral form of the SOD-CHS-CAT conjugate. These results indicate that the development of enzyme conjugates can be medically significant, as a promising approach for the creation of new drugs.

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Enzymatic Antioxidants: Next Phase of Pharmacological Effort to Fight Oxidative Stress?

Maksimenko¹,

Vavaev²,

Tischenko³

2010

TOPROCJ

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Abstract:The focus in the research of antioxidants is notably displaced in favour of research of enzyme derivatives. Extracellular superoxide dismutase (EC-SOD) is of the particular interest, as it demonstrates in vivo the protective action against development of atherosclerosis, hypertension, heart failure, diabetes mellitus. The reliable association of coronary artery disease with the decreased level of heparin-released EC-SOD was established in clinical researches. To base and develop antioxidant therapy, various SOD isozymes, catalase (CAT), the methods of experimental gene therapy, combined application of SOD-and CAT-activities are used. Covalent bienzyme SOD -CHS -CAT conjugate (where CHS -chondroitin sulphate) showed in the experimental trials its high efficacy as the antithrombotic agent. Pre-clinical research data approve the reliable option to gain for it the status of drug candidate. The trend to use the components of glycocalyx and extracellular matrix for target delivery of medical substances is evident. Development of new enzyme antioxidants for therapeutical destination is closely connected with becoming and progress of medical biotechnology, pharmaceutical industry, bioeconomy.

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Extracellular protection of the vascular wall with the covalently connected antioxidant enzymes against oxidative damage

Maksimenko

Vavaev

Tischenko

2008

Journal of Biotechnology

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