Pregled bibliografske jedinice broj: 1006455
The Fusarium metabolite culmorin suppresses the in vitro glucuronidation of deoxynivalenol
The Fusarium metabolite culmorin suppresses the in vitro glucuronidation of deoxynivalenol // Archives of toxicology, 93 (2019), 6; 1729-1743 doi:10.1007/s00204-019-02459-w (međunarodna recenzija, članak, znanstveni)
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Naslov
The Fusarium metabolite culmorin suppresses the in vitro glucuronidation of deoxynivalenol
Autori
Woelflingseder, Lydia ; Warth, Benedikt ; Vierheilig, Immina ; Schwartz-Zimmermann, Heidi ; Hametner, Christian ; Nagl, Veronika ; Novak, Barbara ; Šarkanj, Bojan ; Berthiller, Franz ; Adam, Gerhard ; Marko, Doris
Izvornik
Archives of toxicology (0340-5761) 93
(2019), 6;
1729-1743
Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni
Ključne riječi
natural contaminants ; drug metabolism ; fungal metabolites ; chemical mixtures ; drug–exposome interactions
Sažetak
Glucuronidation is a major phase II conjugation pathway in mammals, playing an important role in the detoxification and biotransformation of xenobiotics including mycotoxins such as deoxynivalenol (DON). Culmorin (CUL), a potentially co-occurring Fusarium metabolite, was recently found to inhibit the corresponding detoxification reaction in plants, namely DON- glucoside formation, raising the question whether CUL might affect also the mammalian counterpart. Using cell-free conditions, CUL when present equimolar (67 µM) or in fivefold excess, suppressed DON glucuronidation by human liver microsomes, reducing the formation of DON- 15-glucuronide by 15 and 50%, and DON-3- glucuronide by 30 and 50%, respectively. Substantial inhibitory effects on DON glucuronidation up to 100% were found using the human recombinant uridine 5′-diphospho- glucuronosyltransferases (UGT) 2B4 and 2B7, applying a tenfold excess of CUL (100 µM). In addition, we observed the formation of a novel metabolite of CUL, CUL-11-glucuronide, identified for the first time in vitro as well as in vivo in piglet and human urine samples. Despite the observed potency of CUL to inhibit glucuronidation, no significant synergistic toxicity on cell viability was observed in combinations of CUL (0.1–100 µM) and DON (0.01– 10 µM) in HT-29 and HepG2 cells, presumably reflecting the limited capacity of the tested cell lines for DON glucuronidation. However, in humans, glucuronidation is known to represent the main detoxification pathway for DON. The present results, including the identification of CUL-11-glucuronide in urine samples of piglets and humans, underline the necessity of further studies on the relevance of CUL as a potentially co-occurring modulator of DON toxicokinetics in vivo.
Izvorni jezik
Engleski
Znanstvena područja
Kemija, Biotehnologija, Prehrambena tehnologija
POVEZANOST RADA
Ustanove:
Prehrambeno-tehnološki fakultet, Osijek,
Sveučilište Sjever, Koprivnica
Profili:
Bojan Šarkanj
(autor)
Citiraj ovu publikaciju:
Časopis indeksira:
- Current Contents Connect (CCC)
- Web of Science Core Collection (WoSCC)
- Science Citation Index Expanded (SCI-EXP)
- SCI-EXP, SSCI i/ili A&HCI
- Scopus
- MEDLINE
