posted on 2016-10-19, 00:00authored byVita Wonoputri, Cindy Gunawan, Sanly Liu, Nicolas Barraud, Lachlan H. Yee, May Lim, Rose Amal
In this study, we
developed poly(vinyl chloride) (PVC)-solvent casted mixed metal copper
and iron complexes capable of catalytic generation of the antibiofilm
nitric oxide (NO) from endogenous nitrite. In the absence of additional
reducing agent, we demonstrated that the presence of iron complex
facilitates a redox cycling, converting the copper(II) complex to
active copper(I) species, which catalyzes the generation of NO from
nitrite. Assessed by protein assay and surface coverage analyses,
the presence of the mixed metal complexes in systems containing water
industry-relevant nitrite-producing nitrifying biofilms was shown
to result in a “nontoxic mode” of biofilm suppression,
while confining the bacterial growth to the free-floating planktonic
phase. Addition of an NO scavenger into the mixed metal system eliminated
the antibiofilm effects, therefore validating first, the capability
of the mixed metal complexes to catalytically generate NO from the
endogenously produced nitrite and second, the antibiofilm effects
of the generated NO. The work highlights the development of self-sustained
antibiofilm materials that features potential for industrial applications.
The novel NO-generating antibiofilm technology diverts from the unfavorable
requirement of adding a reducing agent and importantly, the less tendency
for development of bacterial resistance.