Staphylococcus aureus microbial biofilms degradation using cellobiose dehydrogenase from Thermothelomyces thermophilus M77

This work reports biochemical characterization of Thermothelomyces thermophilus cellobiose dehydrogenase (TthCDHIIa) and its application as an antimicrobial and antibiofilm agent. We demonstrate that TthCDHIIa is thermostable in different ionic solutions and is capable of oxidizing multiple mono and...

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Veröffentlicht in:International journal of biological macromolecules 2023-08, Vol.247, p.125822-125822, Article 125822
Hauptverfasser: Samaniego, Lorgio Victor Bautista, Higasi, Paula Miwa Rabelo, de Mello Capetti, Caio Cesar, Cortez, Anelyse Abreu, Pratavieira, Sebastião, de Oliveira Arnoldi Pellegrini, Vanessa, Dabul, Andrei Nicoli Gebieluca, Segato, Fernando, Polikarpov, Igor
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Sprache:eng
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Zusammenfassung:This work reports biochemical characterization of Thermothelomyces thermophilus cellobiose dehydrogenase (TthCDHIIa) and its application as an antimicrobial and antibiofilm agent. We demonstrate that TthCDHIIa is thermostable in different ionic solutions and is capable of oxidizing multiple mono and oligosaccharide substrates and to continuously produce H2O2. Kinetics measurements depict the enzyme catalytic characteristics consistent with an Ascomycota class II CDH. Our structural analyses show that TthCDHIIa substrate binding pocket is spacious enough to accommodate larger cello and xylooligosaccharides. We also reveal that TthCDHIIa supplemented with cellobiose reduces the viability of S. aureus ATCC 25923 up to 32 % in a planktonic growth model and also inhibits its biofilm growth on 62.5 %. Furthermore, TthCDHIIa eradicates preformed S. aureus biofilms via H2O2 oxidative degradation of the biofilm matrix, making these bacteria considerably more susceptible to gentamicin and tetracycline. [Display omitted] •Cellobiose dehydrogenase from Thermothelomyces thermophilus (TthCDHIIa) oxidizes multiple oligosaccharides.•TthCDHIIa can produce H2O2 continuously from diverse mono- and oligosaccharides.•TthCDHIIa + cellobiose reduce Staphylococcus aureus ATCC 25923 planktonic viability acting as an antimicrobial agent.•TthCDHIIa hydrogen peroxide production leads to oxidation of Staphylococcus aureus ATCC 25923 biofilms.
ISSN:0141-8130
1879-0003
DOI:10.1016/j.ijbiomac.2023.125822