A. Yu. Gorokhovatskii scite author profile

A. Yu. Gorokhovatskii

2Publications

11Citation Statements Received

0Citation Statements Given

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Affiliations

Institute of Bioorganic Chemistry, Russian Academy of Sciences

Publications

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Monoclonal antibodies to botulinum neurotoxins of types A, B, E, and F

et al. 2011

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Mouse monoclonal antibodies against the most acutely toxic substances, botulinum neurotoxins (BoNTs) of types A, B, E, and F, was generated and characterized, that recognize their respective toxins in natural toxin complex. Based on these antibodies, we developed sandwich-ELISA for quantitative detection of these toxins. For each respective toxin the detection limit of the assay was: BoNT/A - 0.4 ng/ml, BoNT/B - 0.5 ng/ml; BoNT/E - 0.1 ng/ml; and for BoNT/F - 2.4 ng/ml. The developed assays permitted quantitative identification of the BoNTs in canned meat and vegetables. The BNTA-4.1 and BNTA-9.1 antibodies possessed neutralizing activity against natural complex of the botulinium toxin type A in vivo, both individually and in mixture, the mixture of the antibodies neutralized the higher dose of the toxin. The BNTA-4.1 antibody binds specifically the light chain (the chain with protease activity) of the toxin, whereas BNTA-9.1 interacts with the heavy chain. We believe that the BNTA-4.1 and BNTA-9.1 monoclonal antibodies are prospective candidates for development of humanized therapeutic antibodies for treatment of BoNT/A-caused botulism.

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Signaling function of phagocytic NADPH oxidase: Activation of MAP kinase cascades in phagocytosis

et al. 2010

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Until recently, the production of reactive oxygen species by NADPH oxidase has been considered only in the context of the oxidative damage to pathogens inside the phagosome. However, homologues of phagocytic NADPH oxidase have been found in almost all cell types, where they produce hydrogen peroxide and thereby regulate the initial intracellular stages of MAP kinase cascades. In the present work, the activation of two MAP kinase cascades, p38 and Erk1/2, during phagocytosis has been studied. It was found that phagocytosis activates both cascades. The activation of Erkl/2 is dependent, and the activation of p38 is not dependent, on the activity of NADPH oxidase. Thus, it can be stated that the activation of MAP kinases in phagocytes during phagocytosis occurs by a mechanism similar to that operating in nonphagocytizing cells, indicating the universality of the function of NADPH oxidases in different cell types.

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