Microbial extracellular polymeric substances in the environment, technology and medicine

Hans-Curt Flemming^{1

2}, Eric D van Hullebusch³, Brenda J Little⁴, Thomas R Neu⁵, Per H Nielsen⁶, Thomas Seviour⁷, Paul Stoodley^{8

9}, Jost Wingender¹⁰, Stefan Wuertz¹¹

Affiliations

¹ Singapore Centre for Environmental Life Sciences Engineering (SCELSE), Nanyang Technological University, Singapore, Singapore. hc.flemming@uni-due.de.
² Institute of Oceanology, Chinese Academy of Sciences (IOCAS), Qingdao, China. hc.flemming@uni-due.de.
³ Université Paris Cité, Institut de Physique du Globe de Paris, CNRS, Paris, France.
⁴ Corrosion Consulting, Montgomery, TX, USA.
⁵ Department of River Ecology, Helmholtz Centre for Environmental Research - UFZ, Magdeburg, Germany.
⁶ Center for Microbial Communities, Department of Chemistry and Bioscience, Aalborg University, Aalborg, Denmark.
⁷ Aarhus University Centre for Water Technology, Department of Biological and Chemical Engineering, Aarhus University, Aarhus, Denmark.
⁸ Department of Microbial Infection and Immunity and the Department of Orthopaedics, the Ohio State University, Columbus, OH, USA.
⁹ National Centre for Advanced Tribology at Southampton (nCATS), National Biofilm Innovation Centre (NBIC), Mechanical Engineering, University of Southampton, Southampton, UK.
¹⁰ University of Duisburg-Essen, Faculty of Chemistry, Environmental Microbiology and Biotechnology, Essen, Germany.
¹¹ Singapore Centre for Environmental Life Sciences Engineering (SCELSE), Nanyang Technological University, Singapore, Singapore.

PMID: 39333414
DOI: 10.1038/s41579-024-01098-y

Review

Microbial extracellular polymeric substances in the environment, technology and medicine

Hans-Curt Flemming et al. Nat Rev Microbiol. 2025 Feb.

. 2025 Feb;23(2):87-105.

doi: 10.1038/s41579-024-01098-y. Epub 2024 Sep 27.

Authors

Hans-Curt Flemming^{1

2}, Eric D van Hullebusch³, Brenda J Little⁴, Thomas R Neu⁵, Per H Nielsen⁶, Thomas Seviour⁷, Paul Stoodley^{8

9}, Jost Wingender¹⁰, Stefan Wuertz¹¹

Affiliations

¹ Singapore Centre for Environmental Life Sciences Engineering (SCELSE), Nanyang Technological University, Singapore, Singapore. hc.flemming@uni-due.de.
² Institute of Oceanology, Chinese Academy of Sciences (IOCAS), Qingdao, China. hc.flemming@uni-due.de.
³ Université Paris Cité, Institut de Physique du Globe de Paris, CNRS, Paris, France.
⁴ Corrosion Consulting, Montgomery, TX, USA.
⁵ Department of River Ecology, Helmholtz Centre for Environmental Research - UFZ, Magdeburg, Germany.
⁶ Center for Microbial Communities, Department of Chemistry and Bioscience, Aalborg University, Aalborg, Denmark.
⁷ Aarhus University Centre for Water Technology, Department of Biological and Chemical Engineering, Aarhus University, Aarhus, Denmark.
⁸ Department of Microbial Infection and Immunity and the Department of Orthopaedics, the Ohio State University, Columbus, OH, USA.
⁹ National Centre for Advanced Tribology at Southampton (nCATS), National Biofilm Innovation Centre (NBIC), Mechanical Engineering, University of Southampton, Southampton, UK.
¹⁰ University of Duisburg-Essen, Faculty of Chemistry, Environmental Microbiology and Biotechnology, Essen, Germany.
¹¹ Singapore Centre for Environmental Life Sciences Engineering (SCELSE), Nanyang Technological University, Singapore, Singapore.

PMID: 39333414
DOI: 10.1038/s41579-024-01098-y

Abstract

Microbial biofilms exhibit a self-produced matrix of extracellular polymeric substances (EPS), including polysaccharides, proteins, extracellular DNA and lipids. EPS promote interactions of the biofilm with other cells and sorption of organics, metals and chemical pollutants, and they facilitate cell adhesion at interfaces and ensure matrix cohesion. EPS have roles in various natural environments, such as soils, sediments and marine habitats. In addition, EPS are relevant in technical environments, such as wastewater and drinking water treatment facilities, and water distribution systems, and they contribute to biofouling and microbially influenced corrosion. In medicine, EPS protect pathogens within the biofilm against the host immune system and antimicrobials, and emerging evidence suggests that EPS can represent potential virulence factors. By contrast, EPS yield a wide range of valuable products that include their role in self-repairing concrete. In this Review, we aim to explore EPS as a functional unit of biofilms in the environment, in technology and in medicine.

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Conflict of interest statement

Competing interests: The authors declare no competing interests.

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References

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Microbial extracellular polymeric substances in the environment, technology and medicine

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Microbial extracellular polymeric substances in the environment, technology and medicine

Authors

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Abstract

Conflict of interest statement

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