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Biofilms of a 'Bacillus subtilis' hospital isolate protect 'Staphylococcus aureus' from biocide action

Msadek, Tarek, Bridier, Arnaud, Sanchez-Vizuete, Maria del Pilar, Le Coq, Dominique, Aymerich, Stéphane, Meylheuc, Thierry, Maillard, Jean-Yves ORCID: https://orcid.org/0000-0002-8617-9288, Thomas, Vincent, Dubois-Brissonnet, Florence and Briandet, Romain 2012. Biofilms of a 'Bacillus subtilis' hospital isolate protect 'Staphylococcus aureus' from biocide action. PLoS ONE 7 (9) , e44506. 10.1371/journal.pone.0044506

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Abstract

The development of a biofilm constitutes a survival strategy by providing bacteria a protective environment safe from stresses such as microbicide action and can thus lead to important health-care problems. In this study, biofilm resistance of a Bacillus subtilis strain (called hereafter NDmedical) recently isolated from endoscope washer-disinfectors to peracetic acid was investigated and its ability to protect the pathogen Staphylococcus aureus in mixed biofilms was evaluated. Biocide action within Bacillus subtilis biofilms was visualised in real time using a non-invasive 4D confocal imaging method. The resistance of single species and mixed biofilms to peracetic acid was quantified using standard plate counting methods and their architecture was explored using confocal imaging and electronic microscopy. The results showed that the NDmedical strain demonstrates the ability to make very large amount of biofilm together with hyper-resistance to the concentration of PAA used in many formulations (3500 ppm). Evidences strongly suggest that the enhanced resistance of the NDmedical strain was related to the specific three-dimensional structure of the biofilm and the large amount of the extracellular matrix produced which can hinder the penetration of peracetic acid. When grown in mixed biofilm with Staphylococcus aureus, the NDmedical strain demonstrated the ability to protect the pathogen from PAA action, thus enabling its persistence in the environment. This work points out the ability of bacteria to adapt to an extremely hostile environment, and the necessity of considering multi-organism ecosystems instead of single species model to decipher the mechanisms of biofilm resistance to antimicrobials agents.

Item Type: Article
Date Type: Publication
Status: Published
Schools: Pharmacy
Subjects: R Medicine > RM Therapeutics. Pharmacology
Publisher: PLoS
ISSN: 1932-6203
Date of First Compliant Deposit: 30 March 2016
Last Modified: 08 May 2023 23:20
URI: https://orca.cardiff.ac.uk/id/eprint/49369

Citation Data

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