Mutations in the Gene Encoding the Ancillary Pilin Subunit of the Streptococcus suis srtF Cluster Result in Pili Formed by the Major Subunit Only

Fittipaldi, Nahuel; Takamatsu, Daisuke; Domínguez-Punaro, María de la Cruz; Lecours, Marie-Pier; Montpetit, Diane; Osaki, Makoto; Sekizaki, Tsutomu; Gottschalk, Marcelo

doi:10.1371/journal.pone.0008426

Cited by 30 publications

(29 citation statements)

References 63 publications

(134 reference statements)

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“…Pili are long filaments displayed on bacterial surface and due to their adhesive properties are involved in the first stages of host colonization [47]. In Gram-positive pathogens, study of the mechanism of pilus assembly and the functions of pili in the genera Actinomyces, Bacillus, Corynebacterium , Enterococcus and Streptococcus has been considerable in recent years [22], [37], [38], [39], [40], [41], [42], [43], [44], [45], [46], [80]. The ultimate objectives of these studies are to find new drug targets and to characterize pili components as new vaccine candidates [52], [81].…”

Section: Discussionmentioning

confidence: 99%

“…Their formation was discovered by pioneering works in Actinomyces naeslundii [35], [36] and Corynebacterium diphtheriae [37], and later in Bacillus cereus [38], Bacillus anthracis [39], Enterococcus faecalis [40], Enterococcus faecium [41], and species of the genus Streptococcus including S. agalactiae [22], [42], S. pneumoniae [43], S. pyogenes [44], [45], and S. suis [46]. Pili are proteinaceous appendages of 1–10 nm in diameter protruding 2–3 µm outside of bacterial cells.…”

Section: Introductionmentioning

confidence: 99%

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Pilus Biogenesis in Lactococcus lactis: Molecular Characterization and Role in Aggregation and Biofilm Formation

et al. 2012

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The genome of Lactococcus lactis strain IL1403 harbors a putative pilus biogenesis cluster consisting of a sortase C gene flanked by 3 LPxTG protein encoding genes (yhgD, yhgE, and yhhB), called here pil. However, pili were not detected under standard growth conditions. Over-expression of the pil operon resulted in production and display of pili on the surface of lactococci. Functional analysis of the pilus biogenesis machinery indicated that the pilus shaft is formed by oligomers of the YhgE pilin, that the pilus cap is formed by the YhgD pilin and that YhhB is the basal pilin allowing the tethering of the pilus fibers to the cell wall. Oligomerization of pilin subunits was catalyzed by sortase C while anchoring of pili to the cell wall was mediated by sortase A. Piliated L. lactis cells exhibited an auto-aggregation phenotype in liquid cultures, which was attributed to the polymerization of major pilin, YhgE. The piliated lactococci formed thicker, more aerial biofilms compared to those produced by non-piliated bacteria. This phenotype was attributed to oligomers of YhgE. This study provides the first dissection of the pilus biogenesis machinery in a non-pathogenic Gram-positive bacterium. Analysis of natural lactococci isolates from clinical and vegetal environments showed pili production under standard growth conditions. The identification of functional pili in lactococci suggests that the changes they promote in aggregation and biofilm formation may be important for the natural lifestyle as well as for applications in which these bacteria are used.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Pilus Biogenesis in Lactococcus lactis: Molecular Characterization and Role in Aggregation and Biofilm Formation

et al. 2012

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“…In addition, transcripts associated with protein processing and transport systems were more abundant in the ⌬rgg mutant. For example, the expression of groES/groEL, a classical molecular chaperone that plays an important role in the proper folding and assembly of macromolecular proteins, was increased, as was transcription of the srtF gene (05SSU0475), a member of the sortase family previously identified in a pilus gene cluster (10,47). Upregulation of these transcripts and many genes encoding membrane surface proteins (i.e., the Sao protein) and cell wall components could potentially enhance adhesion of the ⌬rgg mutant to Hep-2 cells.…”

Section: Vol 79 2011mentioning

confidence: 99%

Contribution of the Rgg Transcription Regulator to Metabolism and Virulence of Streptococcus suis Serotype 2

Feng

Cao

et al. 2011

Infect Immun

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The Rgg-like regulators, a family of transcription factors commonly found in many Gram-positive bacteria, play multiple roles, especially in the control of pathogen virulence. Here, we report an rgg homologue from a Chinese isolate, 05ZYH33, of Streptococcus suis serotype 2 (SS2). Deletion of the rgg gene in SS2 increased its adhesion to Hep-2 cells and hemolytic activity in vitro. Significantly, inactivation of the rgg gene attenuated SS2 virulence in an experimental piglet infection model. Using DNA microarrays and quantitative reverse transcription-PCR, we found that the Rgg regulator affects the transcriptional profile of 15.87% (n ‫؍‬ 345) of all of the annotated chromosomal genes, including those involved in nonglucose carbohydrate metabolism, DNA recombination, protein biosynthesis, bacterial defense mechanisms, and others. It was experimentally verified that the deletion of rgg in SS2 reduced the utilization of nonglucose carbohydrates, such as lactose and maltose. In addition, the rgg gene was found to be associated with changes in the bacterial microscopic phenotype and growth curve. These data suggested that Rgg in SS2 is a global transcriptional regulator that plays an important role in promoting SS2 bacterial survival during pathogen-host interaction.Streptococcus suis serotype 2 (SS2) is a leading swine pathogen that occasionally infects humans who engage in close contact with swine and pork-derived products (7,14,35,38). Before our report of two epidemic outbreaks of human SS2 in China, it was thought that SS2 could only cause sporadic human cases (7,38,43,49). In view of this epidemiological history of human SS2 infection, both outbreaks (37, 43, 49) and sporadic cases (9, 27) are now believed to take place in China. Comparative genomics analyses from three different groups (4, 15, 48) have suggested that virulent Chinese strains of SS2 feature a specific, 89-kb-long DNA fragment (dubbed 89K by our group [4]). Further genetic studies showed preliminary evidence that 89K may function as a pathogenicity island (22). Besides well-known virulence-associated factors, such as capsular polysaccharide (36) and suilysin (18), 17 additional virulence-associated components have been identified (9), including a two-component signal transduction system (TCSTS), SalK-SalR (22); an orphan regulator, CovR (31); lipoteichoic acid (11); and others.Like many other pathogenic bacteria, SS2 is transmitted via the respiratory route and remains localized in the palatine tonsils but subsequently escapes from the immune system and disseminates via the blood circulation system, finally invading various host organs (1). In order to colonize and infect different regions within the host, SS2 requires a regulatory network that senses changing surroundings and responds to environmental signals. Such responses typically involve genome-wide changes in transcriptional activation or repression of specific genes through interactions among multiple regulators. In recent years, thorough research and analyses of global regulatory netw...

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“…More recently, 4 gene clusters encoding putative pilus-like structures were identified in S. suis, designated srtBCD and srtF, srtE and srtG, according to the type of class C sortases present in the respective locus (Fittipaldi et al, 2007;Rodriguez-Ortega et al, 2008;Takamatsu et al, 2009). The most prevalent cluster, srtF, was recently studied in detail by Fittipaldi et al (2010) and Garibaldi et al (2010). For many other species, evidence for pilus gene clusters is exclusively based on bioinformatic evidence (Plyusnin et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

Genomic organization, structure, regulation and pathogenic role of pilus constituents in major pathogenic Streptococci and Enterococci

Kreikemeyer

Gámez

Margarit

et al. 2011

International Journal of Medical Microbiology

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Mutations in the Gene Encoding the Ancillary Pilin Subunit of the Streptococcus suis srtF Cluster Result in Pili Formed by the Major Subunit Only

Cited by 30 publications

References 63 publications

Pilus Biogenesis in Lactococcus lactis: Molecular Characterization and Role in Aggregation and Biofilm Formation

Pilus Biogenesis in Lactococcus lactis: Molecular Characterization and Role in Aggregation and Biofilm Formation

Contribution of the Rgg Transcription Regulator to Metabolism and Virulence of Streptococcus suis Serotype 2

Genomic organization, structure, regulation and pathogenic role of pilus constituents in major pathogenic Streptococci and Enterococci

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