S-Nitrosothiol Plasma-Modified Surfaces for the Prevention of Bacterial Biofilm Formation.

Abstract

The development of novel strategies for the prevention of bacterial infections is of utmost importance because of the exponential growth in the number of patient morbidity related to nosocomial and chronic infections. Nitric oxide (NO) is known to be a potent inhibitor of bacterial growth and adhesion to surfaces. Here, we develop an antibiofilm coating that possesses S-nitrosothiol NO donors via plasma polymerization (PP) for biofilm prevention applications. Cell culture dishes of four different film thicknesses ranging from 125 to 1000 nm were coated via PP using a thiol monomer. The thiol functionality on the substrates was converted to S-nitrosothiol NO precursors using tert-butyl nitrite. The successful conjugation of thiol and subsequent formation of S-nitrosothiol functionalities on the substrates were confirmed using X-ray photoelectron spectroscopy and UV-vis analysis. These coatings are capable of releasing NO over 2 days, and the NO loading is tunable by the polymer film thickness. The antibiofilm activity of the surfaces was assessed using Gram-negative bacteria, Pseudomonas aeruginosa. Higher film thickness (and hence, higher NO loading) demonstrate better antibiofilm activity, and the best performing coating shows 81 and 60% inhibition of bacterial attachment to the surface after exposure to bacterial culture solution for 24 and 36 h, respectively. Overall, the NO-releasing plasma-modified surfaces present a potential viable strategy to inhibit bacterial biofilm formation.