Genome Sequence of Avery's Virulent Serotype 2 Strain D39 of<i>Streptococcus pneumoniae</i>and Comparison with That of Unencapsulated Laboratory Strain R6

Lanie, Joel A.; Ng, Wai‐Leung; Kazmierczak, Krystyna M.; Andrzejewski, Tiffany M.; Davidsen, Tanja M.; Wayne, Kyle J.; Tettelin, Hervé; Glass, John I.; Winkler, Malcolm E.

doi:10.1128/jb.01148-06

Cited by 413 publications

(464 citation statements)

References 114 publications

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“…Since the mutants of these two studies were constructed independently, the source of the TIGR4 parent strain (serotype 4) could affect the results. Laboratory strains purchased from different sources could have accumulated different mutations as has been observed for D39 and its derivatives (23). It is also possible that the methodologies applied and sera used as a source of complement could result in differences between the studies.…”

Section: Discussionmentioning

confidence: 95%

The Capsular Serotype ofStreptococcus pneumoniaeIs More Important than the Genetic Background for Resistance to Complement

et al. 2010

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The polysaccharide capsule of Streptococcus pneumoniae inhibits phagocytic killing by innate immune mechanisms. Certain serotypes are associated with invasive disease while others with a nasopharyngeal carriage. The invasiveness of serotypes may partly be explained by ability to resist deposition of complement (C3) on the bacterial surface and consequent opsonophagocytic killing. In our previous studies, we observed that clinical isolates of serotypes 1 and 5, which are rarely detected in asymptomatic carriage, were resistant to complement deposition and opsonophagocytosis, whereas serotypes 6B and 23F, both common in carriage, were more sensitive to deposition of C3 and opsonophagocytic killing. However, presence of significant variation in C3 deposition between isolates of the same serotype indicated that factors other than the capsule also affect complement resistance. To distinguish the relative effect of the capsular serotype and other virulence factors on C3 deposition, we compared capsule-switched mutants prepared in genetic backgrounds of pneumococcal strains TIGR4, 603, and 618. Clinical isolates which had the same multilocus sequence type but expressed different serotypes were also compared. We found that the serotype had a significant impact on complement resistance and that the more resistant the strain was to complement, the higher was the concentration of polysaccharide-specific antibodies required for opsonophagocytic killing. Comparison of strains expressing the same capsular polysaccharides in the different genetic backgrounds and various capsular mutants of the same strain suggests that while the genotype affects complement resistance, the serotype is the most important determinant. Differences between serotypes were more significant than the differences between strains.

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Section: Discussionmentioning

confidence: 95%

The Capsular Serotype ofStreptococcus pneumoniaeIs More Important than the Genetic Background for Resistance to Complement

et al. 2010

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“…SPD_0065 is annotated as a ␤-galactosidase 3 gene. It is present in all sequenced pneumococcal genomes (16,27,47) and was identified as part of the core genomes of strains associated with colonization and invasive disease (37).…”

Section: Resultsmentioning

confidence: 99%

“…Given that carbohydrate is the principal pneumococcal energy source and at least one-third of the genome is devoted to sugar metabolism (16,27,47), we hypothesized that in addition to previously described pneumococcal glycosidases, there are likely to be others whose action is required to degrade host glycoconjugates, such as mucins. The search for novel and previously uncharacterized sugar hydrolases resulted in the identification of a ␤-galactosidase (SPD_0065) which is involved in the degradation of glycoproteins, including mucins.…”

Section: Discussionmentioning

confidence: 99%

“…The roles of other glycosidases remain unknown, yet at least one-third of the pneumococcal genome encodes proteins involved in sugar transport, degradation, and processing, suggesting that carbohydrate metabolism has a central impact on pneumococcal biology (16,27,47). In the sequenced pneumococcal genome, several genes are annotated as sugar hydrolases (otherwise known as glycosidases); however, the importance of these in glycoprotein degradation is not known.…”

mentioning

confidence: 99%

“…In the sequenced pneumococcal genome, several genes are annotated as sugar hydrolases (otherwise known as glycosidases); however, the importance of these in glycoprotein degradation is not known. In this study we explored the role in glycoprotein degradation and virulence of SPD_0065, annotated as ␤-galactosidase 3 in the D39 genome (27). During preparation of this paper, Jeong et al (20) reported some properties of SPD_0065.…”

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Streptococcus pneumoniae

Peter¹,

Klein²

2008

Principles and Practice of Pediatric Infectious Disease

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The pneumococcus obtains its energy from the metabolism of host glycosides. Therefore, efficient degradation of host glycoproteins is integral to pneumococcal virulence. In search of novel pneumococcal glycosidases, we characterized the Streptococcus pneumoniae strain D39 protein encoded by SPD_0065 and found that this gene encodes a ␤-galactosidase. The SPD_0065 recombinant protein released galactose from desialylated fetuin, which was used here as a model of glycoproteins found in vivo. A pneumococcal mutant with a mutation in SPD_0065 showed diminished ␤-galactosidase activity, exhibited an extended lag period in mucin-containing defined medium, and cleaved significantly less galactose than the parental strain during growth on mucin. As pneumococcal ␤-galactosidase activity had been previously attributed solely to SPD_0562 (bgaA), we evaluated the contribution of SPD_0065 and SPD_0562 to total ␤-galactosidase activity. Mutation of either gene significantly reduced enzymatic activity, but ␤-galactosidase activity in the double mutant, although significantly less than that in either of the single mutants, was not completely abolished. The expression of SPD_0065 in S. pneumoniae grown in mucin-containing medium or tissues harvested from infected animals was significantly upregulated compared to that in pneumococci from glucose-containing medium. The SPD_0065 mutant strain was found to be attenuated in virulence in a manner specific to the host tissue.Streptococcus pneumoniae is the leading cause of bacterial pneumonia, otitis media, bacterial meningitis, and septicemia (21). Furthermore, a high percentage of the population carries the bacterium in the nasopharynx, asymptomatically or as a prelude to disease (53). The upsurge in antibiotic-resistant strains and the search for new vaccines highlight the need to understand more completely the nature of pneumococcal virulence. A survey of pneumococcal virulence studies indicates a clear asymmetry in favor of research focusing on factors involved in attachment and damage to host tissues and in immune evasion (2,11,15,22,38). Although these studies have revealed useful information about pneumococcal virulence, there is a severe lack of knowledge on the basic physiology of S. pneumoniae, such that little information is available on how the pneumococcus fulfils its nutritional requirements for the generation of energy.Carbohydrates are the principal energy sources for the pneumococcus, and these must be obtained exclusively from its host (16). Although the pneumococcus is known to utilize a variety of free sugars through at least 14 sugar utilization operons (10), in the upper respiratory tract the concentration of free sugars is low (39). However, monosaccharides are copious within the structures of O-and N-linked oligosaccharides of glycoproteins, which are found predominantly in the structures of mucins (Fig. 1) and in circulatory glycoproteins, respectively. Previous studies have shown that the sequential deglycosylation of N-linked glycan structures by pneumococcal...

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Pneumococcal lipoproteins involved in bacterial fitness, virulence, and immune evasion

et al. 2016

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Edited by Wilhelm JustStreptococcus pneumoniae (pneumococcus) has evolved sophisticated strategies to survive in several niches within the human body either as a harmless commensal or as a serious pathogen causing a variety of diseases. The dynamic interaction between pneumococci and resident host cells during colonization of the upper respiratory tract and at the site of infection is critical for bacterial survival and the development of disease. Pneumococcal lipoproteins are peripherally anchored membrane proteins and have pivotal roles in bacterial fitness including envelope stability, cell division, nutrient acquisition, signal transduction, transport (as substrate-binding proteins of ABC transporter systems), resistance to oxidative stress and antibiotics, and protein folding. In addition, lipoproteins are directly involved in virulence-associated processes such as adhesion, colonization, and persistence through immune evasion. Conversely, lipoproteins are also targets for the host response both as ligands for toll-like receptors and as targets for acquired antibodies. This review summarizes the multifaceted roles of selected pneumococcal lipoproteins and how this knowledge can be exploited to combat pneumococcal infections.

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Genome Sequence of Avery's Virulent Serotype 2 Strain D39 ofStreptococcus pneumoniaeand Comparison with That of Unencapsulated Laboratory Strain R6

Cited by 413 publications

References 114 publications

The Capsular Serotype ofStreptococcus pneumoniaeIs More Important than the Genetic Background for Resistance to Complement

The Capsular Serotype ofStreptococcus pneumoniaeIs More Important than the Genetic Background for Resistance to Complement

Streptococcus pneumoniae

Pneumococcal lipoproteins involved in bacterial fitness, virulence, and immune evasion

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