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Human α-Defensin-6 Neutralizes Clostridioides difficile Toxins TcdA and TcdB by Direct Binding

Lara Barthold, Sebastian Heber, Christoph Q. Schmidt, Marion Gradl, Gilbert Weidinger, Holger Barth, Stephan Fischer

2022International Journal of Molecular Sciences19 citationsDOIOpen Access PDF

Abstract

infections (CDIs) in recent years. The main virulence factors of this bacterium are the exotoxins TcdA and TcdB, which glucosylate Rho-GTPases and thereby inhibit Rho/actin-mediated processes in cells. This results in cell rounding, gut barrier disruption and characteristic clinical symptoms. So far, treatment of CDIs is limited and mainly restricted to some antibiotics, often leading to a vicious circle of antibiotic-induced disease recurrence. Here, we demonstrate the protective effect of the human antimicrobial peptide α-defensin-6 against TcdA, TcdB and the combination of both toxins in vitro and in vivo and unravel the underlying molecular mechanism. The defensin prevented toxin-mediated glucosylation of Rho-GTPases in cells and protected human cells, model epithelial barriers as well as zebrafish embryos from toxic effects. In vitro analyses revealed direct binding to TcdB in an SPR approach and the rapid formation of TcdB/α-defensin-6 complexes, as analyzed with fluorescent TcdB by time-lapse microscopy. In conclusion, the results imply that α-defensin-6 rapidly sequesters the toxin into complexes, which prevents its cytotoxic activity. These findings extend the understanding of how human peptides neutralize bacterial protein toxins and might be a starting point for the development of novel therapeutic options against CDIs.

Topics & Concepts

DefensinMicrobiologyClostridium difficile toxin BBiologyVirulenceClostridium difficile toxin AIn vitroAntibioticsAntimicrobialClostridium difficileBiochemistryGeneClostridium difficile and Clostridium perfringens researchPediatric health and respiratory diseasesAntimicrobial Peptides and Activities