Study of two novel streptococcus pneumoniae operons: pilus islet 2 and the lantibiotic operon

Analysis of publicly available genomes of Streptococcus pneumoniae has led to the identification of a new genomic element resembling gram-positive pilus islets (PIs). Here, we demonstrate that this genomic region, herein referred to as PI-2 (containing the genes pitA, sipA, pitB, srtG1, and srtG2) codes for a novel functional pilus in pneumococcus. Therefore, there are two pilus islets identified so far in this pathogen (PI-1 and PI-2). Polymerization of the PI-2 pilus requires the backbone protein PitB as well as the sortase SrtG1 and the signal peptidase-like protein SipA. PI-2 is associated with serotypes 1, 2, 7F, 19A, and 19F, considered to be emerging in both industrialized and developing countries. Interestingly, strains belonging to clonal complex 271 (CC271) contain both PI-1 and PI-2, as revealed by genome analyses. In these strains both pili are surface exposed and independently assembled. Furthermore, in vitro experiments provide evidence that the pilus encoded by PI-2 of S. pneumoniae is involved in adherence. Thus, pneumococci encode at least two types of pili that may play a role in the initial host cell contact to the respiratory tract. In addition, the pilus proteins are potential antigens for inclusion in a new generation of pneumococcal vaccines. Adherence by pili could represent important factor in bacterial community formation, since it has been demonstrated that bacterial community formation plays an important role in pneumococcal otitis media. In vitro quantification of bacterial community formation by S. pneumoniae was performed in order to investigate the possible role of pneumococcal pili to form communities. By using different growth media we were not able to see clear association between pili and community formation. But our findings revealed that strains belonging to MLST clonal complex CC15 efficiently form bacterial communities in vitro in a glucose dependent manner. We compared the genome of forty-four pneumococcal isolates discovering four open reading frames specifically associated with CC15. These four genes are annotated as members of an operon responsible for the biosynthesis of a putative lanctibiotic peptide, described to be involved in bacterial community formation. Our experiments show that the lanctibiotic operon deletion affects glucose mediated community formation in CC 15 strain INV200. Moreover, since glucose consumption during bacterial growth produce an acidic environment, we tested bacterial community formation at different pH and we showed that the lanctibiotic operon deletion affected pH mediated community formation in CC 15 strain INV200. In conclusion, these data demonstrate that the putative lanctibiotic operon is associated with pneumococcal CC 15 strains in vitro bacterial community formation.

Forme atipiche di malattia mani-piedi-bocca: La nostra esperienza

Introduzione: La malattia mani-piedi-bocca è una patologia infettiva tipica della prima infanzia causata dagli enterovirus, in particolare i sierotipi Coxsackievirus A16 ed Enterovirus 71. A partire dal 2008, ne è stata descritta un’epidemia da Coxsackievirus A6, in genere accompagnata da febbre elevata e che si distingue per lo sviluppo di piccole vescicole che progrediscono a lesioni vescicolo-bollose e a bolle vere e proprie. Inoltre, nei pazienti affetti da dermatite atopica, le lesioni tendono a localizzarsi sulle aree eczematose. Abbiamo quindi svolto uno studio osservazionale prospettico per descrivere le caratteristiche cliniche delle forme atipiche di malattia mani-piedi-bocca. Metodi: Sono stati arruolati i pazienti affetti da una forma atipica di malattia mani-piedi-bocca giunti consecutivamente presso l’Ambulatorio di Dermatologia Pediatrica del Policlinico S.Orsola-Malpighi di Bologna tra gennaio 2012 e febbraio 2014. Abbiamo valutato distribuzione, tipologia ed estensione delle lesioni. In un gruppo di pazienti è stata inoltre eseguita l’identificazione virale sul fluido vescicolare. Risultati: Abbiamo arruolato 47 pazienti (68% maschi) con un’età mediana di 22 mesi. Sono stati individuati 3 aspetti clinici principali: 1) forma acrale (distribuzione delle lesioni prevalentemente acrale), nel 62% dei soggetti; 2) eczema coxsackium (lesioni localizzate su aree eczematose), nel 23% dei soggetti; 3) forma diffusa (estensione delle lesioni al tronco), nel 15% dei soggetti. Inoltre, nell’80% circa dei pazienti si riscontravano macule purpuriche acrali, circa la metà dei pazienti aveva lesioni con aspetto purpurico e il 72% un interessamento dei glutei. In 9 su 11 soggetti genotipizzati è stato isolato il Coxsackievirus A6. Conclusioni: Questo studio ha permesso di descrivere tre fenotipi di malattia mani-piedi-bocca atipica, che deve essere correttamente identificata al fine di non porre diagnosi errate quali varicella, eczema herpeticum, vasculiti, impetigine, e di potere così procedere ad una gestione appropriata della patologia.

Exploring the biofilm of Streptococcus agalactiae to identify virulence factors

Streptococcus agalactiae, also known as Group B Streptococcus (GBS) is the primary colonizer of the anogenital mucosa of up to 40% of healthy women and an important cause of invasive neonatal infections worldwide. Among the 10 known capsular serotypes, GBS type III accounts for 30-76% of the cases of neonatal meningitis. Biofilms are dense aggregates of surface-adherent microorganisms embedded in an exopolysaccharide matrix. Centers for Disease Control and Prevention estimate that 65% of human bacterial infections involve biofilms (Post et al., 2004). In recent years, the ability of GBS to form biofilm attracted attention for its possible role in fitness and/or virulence. Here, a new in vitro biofilm formation protocol was developed to guarantee more stringent conditions, to better discriminate between strong-, low- and non- biofilm forming strains and reduce ambiguous data interpretation. This protocol was applied to screen the in vitro biofilm formation ability of more than 350 GBS clinical isolates from pregnant women and neonatal infections belonging to different serotype, in relation to media composition and pH. The results showed the enhancement of GBS biofilm formation in acidic condition and identified a subset of isolates belonging to serotypes III and V that forms strong biofilms in these conditions. Interestingly, the best biofilm formers belonged to the serotype III hypervirulent clone ST-17.It was also found that pH 5.0 induces down-regulation of the capsule but that this reduction is not enough by itself to ensure biofilm formation. Moreover, the ability of proteinase K to strongly inhibit biofilm formation and to disaggregate mature biofilms suggested that proteins play an essential role in promoting GBS biofilm formation and contribute to the biofilm structural stability. Finally, a set of proteins potentially expressed during the GBS in vitro biofilm formation were identified by mass spectrometry.