Abstract
BackgroundMicroorganisms of different species interact in several ecological niches, even causing infection. During the infectious process, a biofilm of single or multispecies can develop. Aspergillus fumigatus and Staphyloccocus aureus are etiologic agents that can cause infectious keratitis. We analyzed in vitro single A. fumigatus and S. aureus, and mixed A. fumigatus-S. aureus biofilms. Both isolates were from patients with infectious keratitis. Structure of the biofilms was analyzed through microscopic techniques including scanning electron microscopy (SEM), transmission electron microscopy (TEM), confocal, and fluorescence microscopy (CLSM) in mixed biofilm as compared with the single A. fumigatus biofilm.ResultsTo our knowledge, this is the first time that the structural characteristics of the mixed biofilm A. fumigatus-A. fumigatus were described and shown. S. aureus sharply inhibited the development of biofilm formed by A. fumigatus, regardless of the stage of biofilm formation and bacterial inoculum. Antibiosis effect of bacterium on fungus was as follows: scarce production of A. fumigatus biofilm; disorganized fungal structures; abortive hyphae; and limited hyphal growth; while conidia also were scarce, have modifications in their surface and presented lyses. Antagonist effect did not depend on bacterial concentration, which could probably be due to cell-cell contact interactions and release of bacterial products. In addition, we present images about the co-localization of polysaccharides (glucans, mannans, and chitin), and DNA that form the extracellular matrix (ECM). In contrast, single biofilms showed extremely organized structures: A. fumigatus showed abundant hyphal growth, hyphal anastomosis, and channels, as well as some conidia, and ECM. S. aureus showed microcolonies and cell-to-cell bridges and ECM.ConclusionsHerein we described the antibiosis relationship of S. aureus against A. fumigatus during in vitro biofilm formation, and report the composition of the ECM formed.
Highlights
Microorganisms of different species interact in several ecological niches, even causing infection
The aim of this study was to analyze the ecological interactions between S. aureus on A. fumigatus during the formation in vitro of mixed biofilm: we found damage on fungal structures, display by scanning electron microscopy (SEM) and transmission electron microscopy (TEM), and co-localization of structural components by CSLM
Analysis of mixed biofilms formed by these microorganisms suggest an antibiosis effect of S. aureus on A. fumigatus, we described some of the mechanisms involved in this interaction that is so scarcely studied
Summary
Microorganisms of different species interact in several ecological niches, even causing infection. We analyzed in vitro single A. fumigatus and S. aureus, and mixed A. fumigatus-S. aureus biofilms Both isolates were from patients with infectious keratitis. Biofilm is a complex of cell populations associated with a biotic or abiotic surface and embedded into an Ramírez Granillo et al BMC Microbiology (2015) 15:33 constituting species, during which these planktonic species adhere to a surface and start the formation of structural scaffolds that serve as foundation for the biofilm. This sequential adhesion process is known as co-aggregation [5]. The ECM envelops the microbial communities increasing surface adhesion; during infectious processes, this favors protection against the host, as well as resistance to drugs by the microorganisms [7]
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