Abstract
Interspecies interactions are essential for the persistence and development of any kind of complex community, and microbial biofilms are no exception. Multispecies biofilms are structured and spatially defined communities that have received much attention due to their omnipresence in natural environments. Species residing in these complex bacterial communities usually interact both intra- and interspecifically. Such interactions are considered to not only be fundamental in shaping overall biomass and the spatial distribution of cells residing in multispecies biofilms, but also to result in coordinated regulation of gene expression in the different species present. These communal interactions often lead to emergent properties in biofilms, such as enhanced tolerance against antibiotics, host immune responses, and other stresses, which have been shown to provide benefits to all biofilm members not only the enabling sub-populations. However, the specific molecular mechanisms of cellular processes affecting spatial organization, and vice versa, are poorly understood and very complex to unravel. Therefore, detailed description of the spatial organization of individual bacterial cells in multispecies communities can be an alternative strategy to reveal the nature of interspecies interactions of constituent species. Closing the gap between visual observation and biological processes may become crucial for resolving biofilm related problems, which is of utmost importance to environmental, industrial, and clinical implications. This review briefly presents the state of the art of studying interspecies interactions and spatial organization of multispecies communities, aiming to support theoretical and practical arguments for further advancement of this field.
Highlights
IntroductionMultispecies biofilms are structured and spatially defined communities that have received much attention due to their omnipresence in natural environments
Closing the gap between visual observation and biological processes may become crucial for resolving biofilm related problems, which is of utmost importance to environmental, industrial, and clinical implications
This review briefly presents the state of the art of studying interspecies interactions and spatial organization of multispecies communities, aiming to support theoretical and practical arguments for further advancement of this field
Summary
Multispecies biofilms are structured and spatially defined communities that have received much attention due to their omnipresence in natural environments Species residing in these complex bacterial communities usually interact both intra- and interspecifically. Such interactions are considered to be fundamental in shaping overall biomass and the spatial distribution of cells residing in multispecies biofilms, and to result in coordinated regulation of gene expression in the different species present. Microorganisms typically live in dense multispecies communities with distinct patterns of spatial organization, termed biofilms This specific mode of living generally provides strong fitness advantages to biofilm-associated bacteria compared to their planktonic counterparts (Hoiby et al, 2010; Bjarnsholt et al, 2013; Kragh et al, 2016), making biofilms ubiquitously present in most bacterial habitats including the human body (Burmølle et al, 2010; Bjarnsholt, 2013). Spatial Organization and Interactions in Multispecies Biofilms established the general circumstances for biofilm formation in monocultures, the focus in biofilm research has in recent years been gradually moving toward investigating the complexity and interactions in multispecies biofilms (Zengler and Palsson, 2012; Burmølle et al, 2014)
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