Author:
Khuda L.,Andrushchak M.,Lubenets V.,Karpenko O.,Pokynbroda T.,Semeniuk I.,Khudyi O.
Abstract
One of the main obstacles to the use of thiosulfonates in aquaculture is their insolubility in water. This problem is eliminated by
using a composition based on ethylthiosulfanilate (ETS) and surface-active rhamnolipid biocomplex (RBC) of bacteria of the genus
Pseudomonas, which provides increased bioavailability of ethylthiosulfanilate and activation of biocidal properties of the drug.
However, this may increase the toxic effects of the created composition. Given the possibility of using Daphnia magna Straus in the
procedure of bioencapsulation as a vector organism for the delivery of a composite drug, a study of the effect of ETS: RBC in nontoxic
concentrations (2.5·10-3 mg / ml and 5·10-3 mg / ml (by ETS) on the content of protein and non-protein thiols in Daphnia
magna, as well as the activity of enzymes inhibited by a natural analogue of thiosulfonates - allicin. A decrease in the content of
protein and non-protein thiols in the tissues of Daphnia magna was found under the action of both studied concentrations of the
drug. A significant reduction in non-protein SH groups compared to protein-bound ones may indicate the active and efficient
involvement of glutathione ethylthiosulfanilate, which is the predominant non-protein thiol in the cell and provides protection
against oxidation of functional groups of proteins and enzymes. The established inhibition of superoxide dismutase activity may be
due to S-thioallylation of ethylthiosulfanilate SH-containing amino acids in the structure of the enzyme. No significant changes in
glutathione-S-transferase activity under the action of the study drug were observed. Only when using a higher concentration of the
composite drug ETS: RBC begins to show a tendency to decrease activity, most likely due to a decrease in the content of reduced
glutathione under these conditions. Given the survival rates of Daphnia magna under the conditions of using the composite drug
ETS: RBC at concentrations of 2.·10-3 mg / ml and 5·10-3 mg / ml, it is likely that its effect focuses on reactions involving sulfhydryl
groups and does not cause significant changes in the detoxification system of the cell.
Publisher
Yuriy Fedkovych Chernivtsi National University
Reference17 articles.
1. Vlasova S.N., Shabunina E.I., Pereslegina A.I. Activity of glutathione-dependent erythrocyte enzymes in chronic liver diseases in children. Laboratornoe дело. 1990; 8: 19–21.
2. Kalinina E.V., Chernov N.N., Novichkova M.D. The role of glutathione, glutathione transferase, and glutaredoxin Біологічні системи. Т. 13. Вип. 1. 2021 13 in the regulation of redox-dependent processes. Uspekhi biologicheskoy khimii. 2014; 54:299-348.
3. Karpenko I.V. Biotechnology of rhamnolipid surface-active products of the strain Pseudomonas sp. PS-17 and their application for oil-bearing plants. PhD thesis. Lviv, 2017.
4. Starovoitova S. O., Oryabinska L. B., Lubenec V. I. Spectrum of Antifungal Domestic Drug Esulanum. Research Bulletin of the National Technical University of Ukraine "Kyiv Polytechnic Institute". 2015; 3: 68-75.
5. Shvets V., Karpenko O., Karpenko I., Novikov V., Lubenets V. Antimicrobial Action of Compositions Based on Thiosulfonates and Biosurfactants on Phytopathogens. Research Bulletin of the National Technical University of Ukraine "Kyiv Polytechnic Institute". 2017; 3: 89-94.