Microbial biofilms: biosurfactants as antibiofilm agents

Banat, Ibrahim M.; Rienzo, Mayri Alejandra Dìaz De; Quinn, Gerry A.

doi:10.1007/s00253-014-6169-6

Cited by 178 publications

(108 citation statements)

References 97 publications

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“…The agr regulatory system controls a myriad of secreted toxins and enzymes, and identifying the exact agents responsible for dispersal has represented a challenge. Early studies suggested that surfactant properties of ␦-toxin could be responsible (69), considering that many bacterially produced surfactants have known anti-biofilm effects (77). As it became evident that ␦-toxin was part of a larger family of PSM peptides (78), further studies demonstrated that multiple PSMs are important in modulating S. aureus biofilm structure (79).…”

Section: Quorum Sensing and Biofilm Interconnectionsmentioning

confidence: 99%

Impact of Environmental Cues on Staphylococcal Quorum Sensing and Biofilm Development

Kavanaugh

Horswill

2016

Journal of Biological Chemistry

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Staphylococci are commensal bacteria that colonize the epithelial surfaces of humans and many other mammals. These bacteria can also attach to implanted medical devices and develop surface-associated biofilm communities that resist clearance by host defenses and available chemotherapies. These communities are often associated with persistent staphylococcal infections that place a tremendous burden on the healthcare system. Understanding the regulatory program that controls staphylococcal biofilm development, as well as the environmental conditions that modulate this program, has been a focal point of research in recent years. A central regulator controlling biofilm development is a peptide quorum-sensing system, also called the accessory gene regulator or agr system. In the opportunistic pathogen Staphylococcus aureus, the agr system controls production of exo-toxins and exo-enzymes essential for causing infections, and simultaneously, it modulates the ability of this pathogen to attach to surfaces and develop a biofilm, or to disperse from the biofilm state. In this review, we explore advances on the interconnections between the agr quorumsensing system and biofilm mechanisms, and topics covered include recent findings on how different environmental conditions influence quorum sensing, the impact on biofilm development, and ongoing questions and challenges in the field. As our understanding of the quorum sensing and biofilm interconnection advances, there are growing opportunities to take advantage of this knowledge and develop therapeutic approaches to control staphylococcal infections.

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Section: Quorum Sensing and Biofilm Interconnectionsmentioning

confidence: 99%

Impact of Environmental Cues on Staphylococcal Quorum Sensing and Biofilm Development

Kavanaugh

Horswill

2016

Journal of Biological Chemistry

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“…The surface and interfacial tension reducing properties of surfactants provide excellent detergency, emulsification, foaming and dispersing traits, making them some of the most versatile products in chemical processes [22]. The current hypothesis is that surface-active molecules like biosurfactants play a major role in the development and maintenance of biofilms, partly through the maintenance of water channels through the biofilm which enhance nutrient movement and gaseous exchange which leads to the dissociation of parts of the biofilm into planktonic mobile forms [5]. Several strands of research have demonstrated that under certain testing conditions, biosurfactants can be more effective than many traditional biofilm inhibition and or disruption strategies [23].…”

Section: Discusionmentioning

confidence: 99%

“…Biosurfactants have long been reported as molecules with potential applications in environmental and biomedical related areas [5,6,7]. There is renewed interest mounting in the use of biosurfactants in healthcare associated infections [8] and in particular the rapid advances in biofilm inhibition, control or disruption involving their use.…”

Section: Introductionmentioning

confidence: 99%

Sophorolipid biosurfactants: Possible uses as antibacterial and antibiofilm agent

et al. 2015

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Biosurfactants are amphipathic, surface-active molecules of microbial origin which accumulate at interfaces reducing interfacial tension and leading to the formation of aggregated micellular structures in solution. Some biosurfactants have been reported to have antimicrobial properties, the ability to prevent adhesion and to disrupt biofilm formation. We investigated antimicrobial properties and biofilm disruption using sophorolipids at different

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“…Biosurfactants are another promising class of substances with possible implementations on the treatment of biofilm-related infections. In a recent review, Banat et al (74) highlighted some properties of biosurfactants towards clearance or prevention of biofilms, including inhibition of initial adherence and disruption of biofilm structure, in a range of bacterial and fungal strains. Synergistic inhibition effect with conventional antimicrobials has also been described (75).…”

Section: Compounds and Enzymes To Disperse Or Dissolve Biofilmsmentioning

confidence: 99%

“…van Tilburg Bernardes et al Page 6 Biological surface-active agents, also known as biosurfactants, are a heterologous and versatile class of chemicals with amphiphilic properties, produced by microorganisms (74). Biosurfactants are another promising class of substances with possible implementations on the treatment of biofilm-related infections.…”

Section: Compounds and Enzymes To Disperse Or Dissolve Biofilmsmentioning

confidence: 99%

Current Research Approaches to Target Biofilm Infections.

E¹,

Lewenza²,

Reckseidler-Zenteno³

2015

PDJ

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This review will focus on strategies to develop new treatments that target the biofilm mode of growth and that can be used to treat biofilm infections. These approaches aim to reduce or inhibit biofilm formation, or to increase biofilm dispersion. Many antibiofilm compounds are not bactericidal but render the cells in a planktonic growth state, which are more susceptible to antibiotics and more easily cleared by the immune system. Novel compounds are being developed with antibiofilm activity that includes antimicrobial peptides, natural products, small molecules and polymers. Bacteriophages are being considered for use in treating biofilms, as well as the use of enzymes that degrade the extracellular matrix polymers to dissolve biofilms. There is great potential in these new approaches for use in treating chronic biofilm infections.

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Microbial biofilms: biosurfactants as antibiofilm agents

Cited by 178 publications

References 97 publications

Impact of Environmental Cues on Staphylococcal Quorum Sensing and Biofilm Development

Impact of Environmental Cues on Staphylococcal Quorum Sensing and Biofilm Development

Sophorolipid biosurfactants: Possible uses as antibacterial and antibiofilm agent

Current Research Approaches to Target Biofilm Infections.

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