V. L. Golubykh scite author profile

V. L. Golubykh

4Publications

62Citation Statements Received

42Citation Statements Given

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Affiliations

Institute of Experimental Cardiology, Academy of Medical Sciences, Ministry of Health of the Russian Federation

Publications

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The combination of modified antioxidant enzymes for anti-thrombotic protection of the vascular wall: the significance of covalent connection of superoxide dismutase and catalase activities

Maksimenko

Golubykh

Tischenko

2004

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Vascular wall protection can be achieved by preventive attachment to the vascular wall of antioxidants and elimination/neutralization of toxic products after their disproportioning. For this purpose we have prepared covalent conjugates between the vascular wall glycosaminglycan chondroitin sulfate (CHS) and the antioxidant enzymes superoxide dismutase (SOD) and catalase (CAT). The following conjugates were obtained: SOD-CHS, CAT-CHS and SOD-CHS-CAT. Their anti-thrombotic activity was compared in a rat model of arterial thrombosis by measuring the time of occlusion emergence and thrombus mass. It is noteworthy that the effectiveness of single bolus injections of SOD-CHS/CAT-CHS mixture was much lower than that of the bienzymic SOD-CHS-CAT conjugate. The conjugate SOD-CHS-CAT proved to be anti-thrombotically effective in doses two orders of magnitude lower than the native biocatalysts and an order of magnitude lower than SOD-CHS and CAT-CHS derivatives. For effective anti-thrombotic protection in oxidative conditions it is important to maintain the stable connection of SOD and CAT activity on the vascular wall and the large size of these conjugates. Covalent conjugate SOD-CHS-CAT is the best prospect for pharmaceutical development.

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Catalase and chondroitin sulfate derivatives against thrombotic effect induced by reactive oxygen species in a rat artery

Maksimenko

Golubykh

Tischenko

2003

Metabolic Engineering

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Maksimenko

Tischenko

Golubykh

1999

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Individual antithrombotic activities of superoxide dismutase (SOD) and sodium chondroitin sulfate (CHS) as well as the activities of covalent and noncovalent complexes of SOD with CHS were compared in a rat model of arterial thrombosis induced by ferrous chloride. Covalent conjugate of SOD with CHS exerted the most potent antithrombotic effect, which was associated with adsorption of the conjugate on the glycocalyx of the vascular wall cells and stability of the covalent bond between CHS and SOD subunits. Theoretical and practical directions in the investigation of SOD and CHS preparations are outlined.

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Potentiation and acceleration effects in combined administration of tissue plasminogen activator and fibrinogen-modified urokinase in dogs with modeled venous thrombosis

et al. 1996

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Combined administration of tissue plasminogen activator and a urokinase-fibrinogen covalent conjugate is studied using modeled venous thrombosis in dogs. In comparison with the effect of the individual preparations the thrombolytic effect was potentiated when intravenous bolus injection of 1 mg tissue plasminogen activator followed by a 2-hour infusion of 4 mg of this preparation was combined with bolus injection of 25,000 IU urokinase-fibrinogen covalent conjugate 15 min after the first bolus. Potentiation and acceleration of thrombolysis were attained with the same scheme when tissue plasminogen activator was administered in a dose of 1 mg for both bolus and infusion and combined with 250,000 IU of fibrinogen-modified urokinase.

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V. L. Golubykh

The combination of modified antioxidant enzymes for anti-thrombotic protection of the vascular wall: the significance of covalent connection of superoxide dismutase and catalase activities

Catalase and chondroitin sulfate derivatives against thrombotic effect induced by reactive oxygen species in a rat artery

Untitled

Potentiation and acceleration effects in combined administration of tissue plasminogen activator and fibrinogen-modified urokinase in dogs with modeled venous thrombosis

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