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Nontarget Biomolecules Alter Macromolecular Changes Induced by Bactericidal Low-Temperature Plasma.


ABSTRACT: Low-temperature plasmas (LTPs) have a proven bactericidal activity governed by the generated reactive oxygen and nitrogen species (RONS) that target microbial cell components. However, RONS also interact with biomolecules in the environment. Here we assess the impact of these interactions upon exposure of liquid suspensions with variable organic content to an atmospheric-pressure dielectric barrier discharge plasma jet. Salmonella enterica serovar Typhimurium viability in the suspension was reduced in the absence [e.g., phosphate buffered saline (PBS)], but not in the presence of (high) organic content [Dulbecco's Modified Eagle's Medium (DMEM), DMEM supplemented with foetal calf serum, and Lysogeny Broth]. The reduced viability of LTP-treated bacteria in PBS correlated to a loss of membrane integrity, whereas double-strand DNA breaks could not be detected in treated single cells. The lack of bactericidal activity in solutions with high organic content correlated with a relative decrease of •OH and O3/O2(a1[Formula: see text])/O, and an increase of H2O2 and [Formula: see text] in the plasma-treated solutions. These results indicate that the redox reactions of LTP-generated RONS with nontarget biomolecules resulted in a RONS composition with reduced bactericidal activity. Therefore, the chemical composition of the bacterial environment should be considered in the development of LTP for antimicrobial treatment, and may affect other biomedical applications as well.

SUBMITTER: Privat-Maldonado A 

PROVIDER: S-EPMC6051481 | biostudies-other | 2018 Mar

REPOSITORIES: biostudies-other

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Nontarget Biomolecules Alter Macromolecular Changes Induced by Bactericidal Low-Temperature Plasma.

Privat-Maldonado A A   Gorbanev Y Y   O'Connell D D   Vann R R   Chechik V V   van der Woude M W MW  

IEEE transactions on radiation and plasma medical sciences 20171011 2


Low-temperature plasmas (LTPs) have a proven bactericidal activity governed by the generated reactive oxygen and nitrogen species (RONS) that target microbial cell components. However, RONS also interact with biomolecules in the environment. Here we assess the impact of these interactions upon exposure of liquid suspensions with variable organic content to an atmospheric-pressure dielectric barrier discharge plasma jet. <i>Salmonella enterica</i> serovar Typhimurium viability in the suspension w  ...[more]

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