Removal of Zearalenone and Zearalenols from Aqueous Solutions Using Insoluble Beta-Cyclodextrin Bead Polymer

Poór, Miklós; Faisal, Zelma; Zand, Afshin; Bencsik, Tímea; Lemli, Beáta; Kunsági‐Máté, Sándor; Szente, Lajos

doi:10.3390/toxins10060216

Cited by 29 publications

(37 citation statements)

References 33 publications

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“…The inclusion of these fluorescent mycotoxins by the CD cavity is commonly useful in analytics, because it can improve their chromatographic properties and/or increase their fluorescence signal [30,31,32]. Furthermore, previous studies demonstrated that CD polymers may be useful as mycotoxin binders: the extraction of ZEN, zearalenols, ochratoxin A, and patulin mycotoxins was successfully executed from aqueous solutions and from different beverages [33,34,35]. Despite masked mycotoxins (e.g., Z14G) also appearing in food products, we have no information regarding the potential interactions of CDs with these mycotoxin derivatives.…”

Section: Introductionmentioning

confidence: 99%

Cyclodextrins Can Entrap Zearalenone-14-Glucoside: Interaction of the Masked Mycotoxin with Cyclodextrins and Cyclodextrin Bead Polymer

et al. 2019

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Zearalenone (ZEN) is a Fusarium-derived xenoestrogenic mycotoxin. In plants, zearalenone-14-O-β-d-glucoside (Z14G) is the major conjugated metabolite of ZEN, and is a masked mycotoxin. Masked mycotoxins are plant-modified derivatives, which are not routinely screened in food and feed samples. Cyclodextrins (CDs) are cyclic oligosaccharides built up from D-glucopyranose units. CDs can form stable host–guest type complexes with lipophilic molecules (e.g., with some mycotoxins). In this study, the interaction of Z14G with native and chemically modified β- and γ-CDs was examined employing fluorescence spectroscopy and molecular modeling. Furthermore, the removal of Z14G from aqueous solution by insoluble β-CD bead polymer (BBP) was also tested. Our results demonstrate that Z14G forms the most stable complexes with γ-CDs under acidic and neutral conditions (K ≈ 103 L/mol). Among the CDs tested, randomly methylated γ-CD induced the highest increase in the fluorescence of Z14G (7.1-fold) and formed the most stable complexes with the mycotoxin (K = 2 × 103 L/mol). Furthermore, BBP considerably reduced the Z14G content of aqueous solution. Based on these observations, CD technology seems a promising tool to improve the fluorescence analytical detection of Z14G and to discover new mycotoxin binders which can also remove masked mycotoxins (e.g., Z14G).

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Section: Introductionmentioning

confidence: 99%

Cyclodextrins Can Entrap Zearalenone-14-Glucoside: Interaction of the Masked Mycotoxin with Cyclodextrins and Cyclodextrin Bead Polymer

et al. 2019

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“…The sequestering properties of CDs and CD-based materials can be exploited to remove contaminants and toxins ( Figure 4 ). In an interesting study, insoluble β-CD beads polymers (BBP) were tested to remove Zearalenone (ZEN), a Fusarium -derived mycotoxin, which exerts xenoestrogenic effects in animals and humans and is formed in cereals and cereal-based products [ 130 ]. The results showed that even relatively small amounts of BBP can strongly decrease the mycotoxin content of aqueous solutions (including beer), and they can be easily recycled with an EtOH/water (50:50) solution.…”

Section: Cyclodextrins As Active Drugsmentioning

confidence: 99%

Cyclic Oligosaccharides as Active Drugs, an Updated Review

et al. 2020

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There have been many reviews of the cyclic oligosaccharide cyclodextrin (CD) and CD-based materials used for drug delivery, but the capacity of CDs to complex different agents and their own intrinsic properties suggest they might also be considered for use as active drugs, not only as carriers. The aim of this review is to summarize the direct use of CDs as drugs, without using its complexing potential with other substances. The direct application of another oligosaccharide called cyclic nigerosyl-1,6-nigerose (CNN) is also described. The review is divided into lipid-related diseases, aggregation diseases, antiviral and antiparasitic activities, anti-anesthetic agent, function in diet, removal of organic toxins, CDs and collagen, cell differentiation, and finally, their use in contact lenses in which no drug other than CDs are involved. In the case of CNN, its application as a dietary supplement and immunological modulator is explained. Finally, a critical structure–activity explanation is provided.

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“…After the first application, the polymer could be completely reactivated after elimination of the toxins from the cyclodextrin cavities by washing with a 50 v/v% ethanol‐water mixture. The authors suggest that the insoluble cyclodextrin polymers prepared may be suitable tools to deplete mycotoxins from contaminated water …”

Section: Recognition Process Using Macrocyclesmentioning

confidence: 99%

“…Cyclodextrin nanosponges are hyper‐cross linked polymers incorporating CD, in which crystallinity and morphology can be varied by changing the ratio of CDs to cross‐linking agents. CDNS have been employed as solid supports with selective recognition particular reagents which are later approached to the vicinity of encapsulated Pd‐NPs . It has been demonstrated that the presence of both, CDs cavities and the 3D polymeric network cavities makes CDNS a proper candidate to arrange different molecules with diverse size, shape and polarity .…”

Section: Recognition Process Using Macrocyclesmentioning

confidence: 99%

Supramolecular Chemistry in Solid State Materials such as Metal‐Organic Frameworks

Fracaroli

Rossi

2018

Israel Journal of Chemistry

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Removal of Zearalenone and Zearalenols from Aqueous Solutions Using Insoluble Beta-Cyclodextrin Bead Polymer

Cited by 29 publications

References 33 publications

Cyclodextrins Can Entrap Zearalenone-14-Glucoside: Interaction of the Masked Mycotoxin with Cyclodextrins and Cyclodextrin Bead Polymer

Cyclodextrins Can Entrap Zearalenone-14-Glucoside: Interaction of the Masked Mycotoxin with Cyclodextrins and Cyclodextrin Bead Polymer

Cyclic Oligosaccharides as Active Drugs, an Updated Review

Supramolecular Chemistry in Solid State Materials such as Metal‐Organic Frameworks

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