The gold nanoparticle reduces Vibrio cholerae pathogenesis by inhibition of biofilm formation and disruption of the production and structure of cholera toxin

Formation of biofilm by Vibrio cholerae plays a crucial role in pathogenesis and transmission of cholera. Lower infective dose of the biofilm form of V. cholerae compared to the planktonic counterpart, and its antibiotic resistance, make it challenging to combat cholera. Nanoparticles may serve as an effective alternative to conventional antibiotics for targeting biofilms and virulence factors. We explored the effectiveness of gold nanoparticles (AuNPs) of different size and shape (spherical: AuNS10 and AuNS100, and rod: AuNR10, the number indicating the diameter in nm) on both the inhibition of formation and eradication of biofilm of the two biotypes of V. cholerae, classical (VcO395) and El Tor (VcN16961). Inhibition of biofilm formation by spherical AuNPs was observed for both the biotypes. Considering eradication, the biofilms for both, particularly El Tor, was destroyed using both the AuNSs, AuNS100 showing higher efficacy. AuNR10 did not affect the biofilm of either biotype. Micrographs of small intestinal sections of VcO395-infected mice indicated the inhibition of biofilm formation by both AuNSs. We also studied the effect of these AuNPs on the structure of cholera toxin (CT), the major toxin produced by V. cholerae. Far-UV CD showed both AuNR10 and AuNS100 compromised the structure of CT, which was also validated from the reduction of fluid accumulation in mice ileal loop. Western blot analysis revealed the reduction of CT production upon treatment with AuNPs. AuNS100 seems to be the best suited to inhibit the formation or destruction of biofilm, as well as to disrupt CT production and function.