Reduction of the Fusarium mycotoxin deoxynivalenol (DON) in animal feed by treatment with sodium bisulfite and sodium metabisulfite has been successfully demonstrated in several studies. All of them reported formation of one DON sulfonate of strongly reduced toxicity compared to DON. The starting point of the present work was investigation of different sulfur reagents for reduction of DON. In the course of these experiments, three different DON sulfonates termed DON sulfonate 1 (1), DON sulfonate 2 (2), and DON sulfonate 3 (3) were identified and structurally elucidated by UHPLC-HRMS/MS as well as NMR spectroscopy. Compound 1 is characterized by loss of the epoxide group, and 2 by formation of a hemiketal. Compound 3 is an equilibrating mixture of two isomers, a ketone and a hemiketal. The MS/MS pattern can be used to differentiate the three DON sulfonates, despite their same mass and molecular formula. Investigation of parameters influencing formation and stability of DON sulfonates revealed that rapid formation of 1 and 2 occurs at alkaline pH, whereas at acidic pH, slow formation of 3 takes place, irrespective of the sulfur reagent used. Whereas 1 and 2 are stable across a broad pH range, 3 decomposes to DON, 1, and 2 at alkaline pH. In addition, both 2 and 3 are unstable in solid form. The formation, characterization, and stability of three novel DON sulfonates with respect to results from previous studies are discussed, providing insights of relevance for detoxification of DON-containing animal feed.
Deoxynivalenol (DON) is a trichothecene mycotoxin regularly occurring in cereals. Rats are often used to study toxicokinetics of DON and related compounds, yet only about 30 % of the administered dose is typically recovered. Recently, it was reported that DON is partly metabolised to previously undetected DON- and deepoxy-DON (DOM) sulfonate in rats and tentative structures were proposed. The present work describes the production and characterisation of DON-, DOM- and DON-3-glucoside (D3G) sulfonates of three different series; the development and validation of liquid chromatography tandem mass spectrometry (LC-MS/MS)-based methods for determination of DON, DOM, D3G and their sulfonates in rat faeces and urine; and application of the methods to samples from a DON and D3G feeding trial with rats. In addition to previously produced DON sulfonates (DONS) 1, 2 and 3, D3G sulfonates 1, 2 and 3; and DOM sulfonates (DOMS) 2 and 3 were synthesised, purified and characterised. The developed methods showed apparent recoveries of all investigated compounds between 68 and 151 % in faeces and between 48 and 113 % in urine. The recovery of DON, D3G and their metabolites from faeces and urine of rats (n = 6) administered in a single dose of 2.0 mg/kg b.w. DON or the equimolar amount of D3G was 75 ± 9 % for the DON group and 68 ± 8 % for the D3G group. DON-, DOM- and D3G sulfonates excreted in faeces accounted for 48 and 47 % of the total amount of administered DON and D3G. Urinary excretion of sulfonates was <1 %. In both treatment groups, DONS 2 was the major metabolite 0-24 h after treatment, whereas DOMS 2 was predominant thereafter. The developed methods can also be used for investigation of DON (conjugate) sulfonate formation in other animal species.
membrane surface due to «diffusion» interaction between single channels regarded as bystable functional elements of the whole system, were investigated. The possibility of control over the spatial structures of a cellular membrane was demonstrated.
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