Biofilm formation and fibrinogen and fibronectin binding activities by Corynebacterium pseudodiphtheriticum invasive strains

Biofilm-related infections are considered a major cause of morbidity and mortality in hospital environments. Biofilms allow microorganisms to exchange genetic material and to become persistent colonizers and/or multiresistant to antibiotics. Corynebacterium pseudodiphtheriticum (CPS), a commensal ba...

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Published in:Antonie van Leeuwenhoek 2015-06, Vol.107 (6), p.1387-1399
Main Authors: Souza, Monica Cristina, dos Santos, Louisy Sanches, Sousa, Leonardo Paiva, Faria, Yuri Vieira, Ramos, Juliana Nunes, Sabbadini, Priscila Soares, da Santos, Cíntia Silva, Nagao, Prescilla Emy, Vieira, Verônica Viana, Gomes, Débora Leandro Rama, Hirata Júnior, Raphael, Mattos-Guaraldi, Ana Luiza
Format: Article
Language:English
Subjects:
Adhesins, Bacterial - metabolism
Antibiotics
Bacteremia - microbiology
Bacterial Adhesion
Bacteriological Techniques
Biofilms
Biofilms - growth & development
Corynebacterium
Corynebacterium - growth & development
Corynebacterium - isolation & purification
Corynebacterium - physiology
Corynebacterium Infections - microbiology
Environmental Microbiology
Fibrinogen - metabolism
Fibronectins - metabolism
Glass
Humans
Microorganisms
Microscopy
Nosocomial infection
Pharyngitis - microbiology
Plastics
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Summary:Biofilm-related infections are considered a major cause of morbidity and mortality in hospital environments. Biofilms allow microorganisms to exchange genetic material and to become persistent colonizers and/or multiresistant to antibiotics. Corynebacterium pseudodiphtheriticum (CPS), a commensal bacterium that colonizes skin and mucosal sites has become progressively multiresistant and responsible for severe nosocomial infections. However, virulence factors of this emergent pathogen remain unclear. Herein, we report the adhesive properties and biofilm formation on hydrophilic (glass) and hydrophobic (plastic) abiotic surfaces by CPS strains isolated from patients with localized (ATCC10700/Pharyngitis) and systemic (HHC1507/Bacteremia) infections. Adherence to polystyrene attributed to hydrophobic interactions between bacterial cells and this negatively charged surface indicated the involvement of cell surface hydrophobicity in the initial stage of biofilm formation. Attached microorganisms multiplied and formed microcolonies that accumulated as multilayered cell clusters, a step that involved intercellular adhesion and synthesis of extracellular matrix molecules. Further growth led to the formation of dense bacterial aggregates embedded in the exopolymeric matrix surrounded by voids, typical of mature biofilms. Data also showed CPS recognizing human fibrinogen (Fbg) and fibronectin (Fn) and involvement of these sera components in formation of "conditioning films". These findings suggested that biofilm formation may be associated with the expression of different adhesins. CPS may form biofilms in vivo possibly by an adherent biofilm mode of growth in vitro currently demonstrated on hydrophilic and hydrophobic abiotic surfaces. The affinity to Fbg and Fn and the biofilm-forming ability may contribute to the establishment and dissemination of infection caused by CPS.
ISSN:0003-6072
1572-9699
DOI:10.1007/s10482-015-0433-3