Peroxidase Activity of Human Hemoproteins: Keeping the Fire under Control
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08.10.2018 |
Vlasova I.
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Molecules |
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4 |
Ссылка
© 2018 by the author. The heme in the active center of peroxidases reacts with hydrogen peroxide to form highly reactive intermediates, which then oxidize simple substances called peroxidase substrates. Human peroxidases can be divided into two groups: (1) True peroxidases are enzymes whose main function is to generate free radicals in the peroxidase cycle and (pseudo)hypohalous acids in the halogenation cycle. The major true peroxidases are myeloperoxidase, eosinophil peroxidase and lactoperoxidase. (2) Pseudo-peroxidases perform various important functions in the body, but under the influence of external conditions they can display peroxidase-like activity. As oxidative intermediates, these peroxidases produce not only active heme compounds, but also protein-based tyrosyl radicals. Hemoglobin, myoglobin, cytochrome c/cardiolipin complexes and cytoglobin are considered as pseudo-peroxidases. Peroxidases play an important role in innate immunity and in a number of physiologically important processes like apoptosis and cell signaling. Unfavorable excessive peroxidase activity is implicated in oxidative damage of cells and tissues, thereby initiating the variety of human diseases. Hence, regulation of peroxidase activity is of considerable importance. Since peroxidases differ in structure, properties and location, the mechanisms controlling peroxidase activity and the biological effects of peroxidase products are specific for each hemoprotein. This review summarizes the knowledge about the properties, activities, regulations and biological effects of true and pseudo-peroxidases in order to better understand the mechanisms underlying beneficial and adverse effects of this class of enzymes.
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Effects of succinate-based antioxidant on in vitro conversion of methemoglobin in oxyhemoglobin
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01.01.2018 |
Chernysh A.
Kozlova E.
Moroz V.
Sergunova V.
Gudkova O.
Manchenko E.
Kozlov A.
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Obshchaya Reanimatologiya |
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0 |
Ссылка
© 2018, V.A. Negovsky Research Institute of General Reanimatology. All rights reserved. The purpose of the study - to determine the feasibility of using the succinate-based antioxidant for the in vitro reduction of excessive methemoglobin to oxyhemoglobin in blood. Materials and Methods. Blood sampling was performed in five healthy donors in microvettes containing EDTA during prophylactic examinations. NaNO2 solution was added to blood samples in vitro in order to yield methemoglobin (MetHb). The complex drug containing the following active ingredients: succinic acid, inosine, riboflavin, nicotinamide, was used as an antioxidant. The absorption spectrum of red cell suspensions with different drug content Dl(λl) exper was measured with 1 nm increments. The non-linear regression method was used to calculate concentrations of hemoglobin derivatives in suspensions. Results. In our experiments, when methemoglobin reacted with drug the optical density of peaks typical for oxyhemoglobin increased and the spectral peak of methemoglobin decreased. The greater the concentration of drug, the more was the incubation time, the more efficient was the process of reduction of MetHb to HbO2. Conclusion. We proved experimentally that while the baseline concentration of MetHb was an average of 91-93%, addition of drug decreased its concentration to 25-7%. Without drug, due to autoreduction, the concentration of MetHb decreases only to 84%. The revealed effect provide a potential for practical applications in critical illness, during the storage of donor blood, in blood transfusions, and under the action of physico-chemical factors on blood.
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Peroxidase Activity of Human Hemoproteins: Keeping the Fire under Control
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Власова Ирина Ивановна
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Molecules |
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The heme in the active center of peroxidases reacts with hydrogen peroxide to form highly reactive intermediates, which then oxidize simple substances called peroxidase substrates. Human peroxidases can be divided into two groups: (1) True peroxidases are enzymes whose main function is to generate free radicals in the peroxidase cycle and (pseudo)hypohalous acids in the halogenation cycle. The major true peroxidases are myeloperoxidase, eosinophil peroxidase and lactoperoxidase. (2) Pseudo-peroxidases perform various important functions in the body, but under the influence of external conditions they can display peroxidase-like activity. As oxidative intermediates, these peroxidases produce not only active heme compounds, but also protein-based tyrosyl radicals. Hemoglobin, myoglobin, cytochrome c/cardiolipin complexes and cytoglobin are considered as pseudo-peroxidases. Рeroxidases play an important role in innate immunity and in a number of physiologically important processes like apoptosis and cell signaling. Unfavorable excessive peroxidase activity is implicated in oxidative damage of cells and tissues, thereby initiating the variety of human diseases. Hence, regulation of peroxidase activity is of considerable importance. Since peroxidases differ in structure, properties and location, the mechanisms controlling peroxidase activity and the biological effects of peroxidase products are specific for each hemoprotein. This review summarizes the knowledge about the properties, activities, regulations and biological effects of true and pseudo-peroxidases in order to better understand the mechanisms underlying beneficial and adverse effects of this class of enzymes. View Full-Text
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Публикация |
Peroxidase Activity of Human Hemoproteins: Keeping the Fire under Control
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Власова Ирина Ивановна (старший научный сотрудник)
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Molecules |
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The heme in the active center of peroxidases reacts with hydrogen peroxide to form highly reactive intermediates, which then oxidize simple substances called peroxidase substrates. Human peroxidases can be divided into two groups: (1) True peroxidases are enzymes whose main function is to generate free radicals in the peroxidase cycle and (pseudo)hypohalous acids in the halogenation cycle. The major true peroxidases are myeloperoxidase, eosinophil peroxidase and lactoperoxidase. (2) Pseudo-peroxidases perform various important functions in the body, but under the influence of external conditions they can display peroxidase-like activity. As oxidative intermediates, these peroxidases produce not only active heme compounds, but also protein-based tyrosyl radicals. Hemoglobin, myoglobin, cytochrome c/cardiolipin complexes and cytoglobin are considered as pseudo-peroxidases. Рeroxidases play an important role in innate immunity and in a number of physiologically important processes like apoptosis and cell signaling. Unfavorable excessive peroxidase activity is implicated in oxidative damage of cells and tissues, thereby initiating the variety of human diseases. Hence, regulation of peroxidase activity is of considerable importance. Since peroxidases differ in structure, properties and location, the mechanisms controlling peroxidase activity and the biological effects of peroxidase products are specific for each hemoprotein. This review summarizes the knowledge about the properties, activities, regulations and biological effects of true and pseudo-peroxidases in order to better understand the mechanisms underlying beneficial and adverse effects of this class of enzymes. View Full-Text
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