posted on 2014-08-13, 00:00authored byLiwei Hui, Ji-Gang Piao, Jeffrey Auletta, Kan Hu, Yanwu Zhu, Tara Meyer, Haitao Liu, Lihua Yang
There
are significant controversies on the antibacterial properties of graphene
oxide (GO): GO was reported to be bactericidal in saline, whereas
its activity in nutrient broth was controversial. To unveil the mechanisms
underlying these contradictions, we performed antibacterial assays
under comparable conditions. In saline, bare GO sheets were intrinsically
bactericidal, yielding a bacterial survival percentage of <1% at
200 μg/mL. Supplementing saline with ≤10% Luria–Bertani
(LB) broth, however, progressively deactivated its bactericidal activity
depending on LB-supplementation ratio. Supplementation of 10% LB made
GO completely inactive; instead, ∼100-fold bacterial growth
was observed. Atomic force microscopy images showed that certain LB
components were adsorbed on GO basal planes. Using bovine serum albumin
and tryptophan as well-defined model adsorbates, we found that noncovalent
adsorption on GO basal planes may account for the deactivation of
GO’s bactericidal activity. Moreover, this deactivation mechanism
was shown to be extrapolatable to GO’s cytotoxicity against
mammalian cells. Taken together, our observations suggest that bare
GO intrinsically kills both bacteria and mammalian cells and noncovalent
adsorption on its basal planes may be a global deactivation mechanism
for GO’s cytotoxicity.