Piliation of Lactobacillus rhamnosus GG Promotes Adhesion, Phagocytosis, and Cytokine Modulation in Macrophages

García, Cynthia E. Vargas; Petrova, Mariya; Claes, Ingmar; Boeck, Ilke De; Verhoeven, Tine; Dilissen, Ellen; Ossowski, Ingemar von; Palva, Airi; Bullens, Dominique; Vanderleyden, Jos; Lebeer, Sarah

doi:10.1128/aem.03949-14

Cited by 73 publications

(57 citation statements)

References 67 publications

(80 reference statements)

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“…A. naeslundii might be less susceptible to OPN treatment due to the presence of type I/II fimbriae that extend up to 700 nm from the cell surface [17] and thereby potentially penetrate the adsorbed OPN layer. A. viscosus, Lactobacillus spp., and streptococci can also produce fimbriae or pili for adhesion [42][43][44][45][46], but the presence and length of such cell surface appendages vary considerably, even between different strains of the same species, and there is no information about pili or fimbriae production by the strains employed in this study. Alternatively, the observed differences might result from differential blocking of salivary receptors by OPN at low concentrations.…”

Section: Discussionmentioning

confidence: 98%

Osteopontin adsorption to Gram-positive cells reduces adhesion forces and attachment to surfaces under flow

Kristensen

Zeng

Neu

et al. 2017

Journal of Oral Microbiology

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The bovine milk protein osteopontin (OPN) may be an efficient means to prevent bacterial adhesion to dental tissues and control biofilm formation. This study sought to determine to what extent OPN impacts adhesion forces and surface attachment of different bacterial strains involved in dental caries or medical device-related infections. It further investigated if OPN's effect on adhesion is caused by blocking the accessibility of glycoconjugates on bacterial surfaces. Bacterial adhesion was determined in a shear-controlled flow cell system in the presence of different concentrations of OPN, and interaction forces of single bacteria were quantified using single-cell force spectroscopy before and after OPN exposure. Moreover, the study investigated OPN's effect on the accessibility of cell surface glycoconjugates through fluorescence lectin-binding analysis. OPN strongly affected bacterial adhesion in a dose-dependent manner for all investigated species (Actinomyces naeslundii, Actinomyces viscosus, Lactobacillus paracasei subsp. paracasei, Staphylococcus epidermidis, Streptococcus mitis, and Streptococcus oralis). Likewise, adhesion forces decreased after OPN treatment. No effect of OPN on the lectin-accessibility to glycoconjugates was found. OPN reduces the adhesion and adhesion force/energy of a variety of bacteria and has a potential therapeutic use for biofilm control. OPN acts upon bacterial adhesion without blocking cell surface glycoconjugates. ARTICLE HISTORY

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Section: Discussionmentioning

confidence: 98%

Osteopontin adsorption to Gram-positive cells reduces adhesion forces and attachment to surfaces under flow

Kristensen

Zeng

Neu

et al. 2017

Journal of Oral Microbiology

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“…(Ossowski et al ., ; Turroni et al ., ; Tytgat et al ., ; Ottman et al ., ). While adhesion to the epithelium and colonisation may facilitate secondary host immune responses (Segers and Lebeer, ; Vargas García et al ., ; Tytgat et al ., ), the present findings highlight the multifunctional nature of the multimolecular Tad pili of bifidobacteria in which adherence/colonisation and epithelial proliferative signalling are distinct molecular processes.…”

Section: Discussionmentioning

confidence: 99%

A Bifidobacterial pilus‐associated protein promotes colonic epithelial proliferation

Motherway

Houston

O'Callaghan

et al. 2018

Molecular Microbiology

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Development of the human gut microbiota commences at birth, with certain bifidobacterial species representing dominant and early colonisers of the newborn gastrointestinal tract. The molecular basis of Bifidobacterium colonisation, persistence and presumed communication with the host has remained obscure. We previously identified tight adherence (Tad) pili from Bifidobacterium breve UCC2003 as an essential colonisation factor. Here, we demonstrate that bifidobacterial Tad pili also promote in vivo colonic epithelial proliferation. A significant increase in cell proliferation was detectable 5 days postadministration of B. breve UCC2003. Using advanced functional genomic approaches, bacterial strains either (a) producing the Tad2003 pili or (b) lacking the TadE or TadF pseudopilins were created. Analysis of the ability of these mutant strains to promote epithelial cell proliferation in vivo demonstrated that the pilin subunit, TadE, is the bifidobacterial molecule responsible for this proliferation response. These findings were confirmed in vitro using purified TadE protein. Our data imply that bifidobacterial Tad pili may contribute to the maturation of the naïve gut in early life through the production of a specific scaffold of extracellular protein structures, which stimulate growth of the neonatal mucosa.

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“…Experimental endophthalmitis initiated by B. cereus deficient in hemolysin BL (Callegan et al, 1999), phosphatidylinositol-specific phospholipase C (Callegan et al, 2002), phosphatidylcholine-specific phospholipase C (Callegan et al, 2002), quorum sensing (Callegan et al, 2003), or swarming (Callegan et al, 2006) were not controlled to the same degree as observed with pili-deficient B. cereus. Studies reported that the presence of pili enhanced the uptake of pneumococci and lactobacilli by macrophages (Orrskog et al, 2012 and Vargas Garcia et al, 2015). If this were the case in our model, one would expect the bacterial burden to be greater in eyes infected with pili-deficient B. cereus.…”

Section: Discussionmentioning

confidence: 99%

“…A number of bacterial species rely on pili as a virulence determinant for adherence to mucosal tissues, to tissues in areas of high fluid flow, and in establishment of biofilms (Axner et al, 2011, Danne and Dramsi, 2012, Mandlik et al, 2008, Melville and Craig, 2013, Romero, 2013, Scheewind and Missiakas, 2012, and Vengadesan and Narayana, 2011). Engagement of pili with components of innate immunity has also been suggested, potentially contributing to the acute inflammatory response (Barrochi et al, 2006, Bassett et al, 2013, Crotty Alexander et al, 2010, and Vargas Gardia et al, 2015). Budzik et al (2007, 2008, 2009a, and 2009b) have reported on the structure and assembly of pili on the surface of vegetative B. cereus , but a specific role for pili in B. cereus infections has not yet been ascribed.…”

Section: Introductionmentioning

confidence: 99%

The role of pili in Bacillus cereus intraocular infection

Callegan

Parkunan

Randall

et al. 2017

Experimental Eye Research

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Bacterial endophthalmitis is a potentially blinding intraocular infection. The bacterium Bacillus cereus causes a devastating form of this disease which progresses rapidly, resulting in significant inflammation and loss of vision within a few days. The outer surface of B. cereus incites the intraocular inflammatory response, likely through interactions with innate immune receptors such as TLRs. This study analyzed the role of B. cereus pili, adhesion appendages located on the bacterial surface, in experimental endophthalmitis. To test the hypothesis that the presence of pili contributed to intraocular inflammation and virulence, we analyzed the progress of experimental endophthalmitis in mouse eyes infected with wild type B. cereus (ATCC 14579) or its isogenic pilus-deficient mutant (ΔbcpA-srtD-bcpB or ΔPil). One hundred CFU were injected into the mid-vitreous of one eye of each mouse. Infections were analyzed by quantifying intraocular bacilli and retinal function loss, and by histology from 0 to 12 h postinfection. In vitro growth and hemolytic phenotypes of the infecting strains were also compared. There was no difference in hemolytic activity (1:8 titer), motility, or in vitro growth (p>0.05, every 2 h, 0-18 h) between wild type B. cereus and the ΔPil mutant. However, infected eyes contained greater numbers of wild type B. cereus than ΔPil during the infection course (p≤0.05, 3-12 h). Eyes infected with wild type B. cereus experienced greater losses in retinal function than eyes infected with the ΔPil mutant, but the differences were not always significant. Eyes infected with ΔPil or wild type B. cereus achieved similar degrees of severe inflammation. The results indicated that the intraocular growth of pilus-deficient B. cereus may have been better controlled, leading to a trend of greater retinal function in eyes infected with the pilus-deficient strain. Although this difference was not enough to significantly alter the severity of the inflammatory response, these results suggest a potential role for pili in protecting B. cereus from clearance during the early stages of endophthalmitis, which is a newly described virulence mechanism for this organism and this infection.

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Piliation of Lactobacillus rhamnosus GG Promotes Adhesion, Phagocytosis, and Cytokine Modulation in Macrophages

Cited by 73 publications

References 67 publications

Osteopontin adsorption to Gram-positive cells reduces adhesion forces and attachment to surfaces under flow

Osteopontin adsorption to Gram-positive cells reduces adhesion forces and attachment to surfaces under flow

A Bifidobacterial pilus‐associated protein promotes colonic epithelial proliferation

The role of pili in Bacillus cereus intraocular infection

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