V. V. Salmin, A. V. Morgun, R. Ya. Olovyannikova, V. A. Kutyakov, E. V. Lychkovskaya, E. B. Brusina, A. B. Salmina
{"title":"大气活性氧及其在呼吸道上皮细胞抗病毒保护中的作用","authors":"V. V. Salmin, A. V. Morgun, R. Ya. Olovyannikova, V. A. Kutyakov, E. V. Lychkovskaya, E. B. Brusina, A. B. Salmina","doi":"10.1134/S1990750822020068","DOIUrl":null,"url":null,"abstract":"<div><div><h3>\n <b>Abstract</b>—</h3><p>The review summarizes literature data on molecular and biochemical mechanisms of nonspecific protection of respiratory epithelium. The special attention is paid to comprehensive analysis of up-to-date data on the activity of the lactoperoxidase system expressed on the surface of the respiratory epithelium which provides the generation of hypothiocyanate and hypoiodite in the presence of locally produced or inhaled hydrogen peroxide. Molecular mechanisms of production of active compounds with antiviral and antibacterial effects, expression profiles of enzymes, transporters and ion channels involved in the generation of hypothiocyanite and hypoiodite in the mucous membrane of the respiratory system in physiological and pathological conditions (inflammation) are discussed. A hypothesis about the effect of atmospheric air composition on the efficiency of hypothiocyanate and hypoiodite generation in the respiratory epithelium in the context of its antibacterial and antiviral protection is presented. The causes and consequences of insufficiency of the lactoperoxidase system caused by the action of atmospheric factors are discussed in the context of controlling the sensitivity of the epithelium to the action of bacterial agents and viruses. Good evidence exists that restoration of the lactoperoxidase system activity can be achieved by application of pharmacological agents aimed to compensate for the deficit of halides in tissues, and by the control of chemical composition of the inhaled air.</p></div></div>","PeriodicalId":485,"journal":{"name":"Biochemistry (Moscow), Supplement Series B: Biomedical Chemistry","volume":"16 2","pages":"79 - 90"},"PeriodicalIF":0.6000,"publicationDate":"2022-05-17","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://link.springer.com/content/pdf/10.1134/S1990750822020068.pdf","citationCount":"0","resultStr":"{\"title\":\"Atmospheric Reactive Oxygen Species and Some Aspects of the Antiviral Protection at the Respiratory Epithelium\",\"authors\":\"V. V. Salmin, A. V. Morgun, R. Ya. Olovyannikova, V. A. Kutyakov, E. V. Lychkovskaya, E. B. Brusina, A. B. Salmina\",\"doi\":\"10.1134/S1990750822020068\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><div><h3>\\n <b>Abstract</b>—</h3><p>The review summarizes literature data on molecular and biochemical mechanisms of nonspecific protection of respiratory epithelium. The special attention is paid to comprehensive analysis of up-to-date data on the activity of the lactoperoxidase system expressed on the surface of the respiratory epithelium which provides the generation of hypothiocyanate and hypoiodite in the presence of locally produced or inhaled hydrogen peroxide. Molecular mechanisms of production of active compounds with antiviral and antibacterial effects, expression profiles of enzymes, transporters and ion channels involved in the generation of hypothiocyanite and hypoiodite in the mucous membrane of the respiratory system in physiological and pathological conditions (inflammation) are discussed. A hypothesis about the effect of atmospheric air composition on the efficiency of hypothiocyanate and hypoiodite generation in the respiratory epithelium in the context of its antibacterial and antiviral protection is presented. The causes and consequences of insufficiency of the lactoperoxidase system caused by the action of atmospheric factors are discussed in the context of controlling the sensitivity of the epithelium to the action of bacterial agents and viruses. 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Atmospheric Reactive Oxygen Species and Some Aspects of the Antiviral Protection at the Respiratory Epithelium
Abstract—
The review summarizes literature data on molecular and biochemical mechanisms of nonspecific protection of respiratory epithelium. The special attention is paid to comprehensive analysis of up-to-date data on the activity of the lactoperoxidase system expressed on the surface of the respiratory epithelium which provides the generation of hypothiocyanate and hypoiodite in the presence of locally produced or inhaled hydrogen peroxide. Molecular mechanisms of production of active compounds with antiviral and antibacterial effects, expression profiles of enzymes, transporters and ion channels involved in the generation of hypothiocyanite and hypoiodite in the mucous membrane of the respiratory system in physiological and pathological conditions (inflammation) are discussed. A hypothesis about the effect of atmospheric air composition on the efficiency of hypothiocyanate and hypoiodite generation in the respiratory epithelium in the context of its antibacterial and antiviral protection is presented. The causes and consequences of insufficiency of the lactoperoxidase system caused by the action of atmospheric factors are discussed in the context of controlling the sensitivity of the epithelium to the action of bacterial agents and viruses. Good evidence exists that restoration of the lactoperoxidase system activity can be achieved by application of pharmacological agents aimed to compensate for the deficit of halides in tissues, and by the control of chemical composition of the inhaled air.
期刊介绍:
Biochemistry (Moscow), Supplement Series B: Biomedical Chemistry covers all major aspects of biomedical chemistry and related areas, including proteomics and molecular biology of (patho)physiological processes, biochemistry, neurochemistry, immunochemistry and clinical chemistry, bioinformatics, gene therapy, drug design and delivery, biochemical pharmacology, introduction and advertisement of new (biochemical) methods into experimental and clinical medicine. The journal also publishes review articles. All issues of the journal usually contain solicited reviews.
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