Renato Morona scite author profile

SummaryIn Streptococcus pneumoniae, the first four genes of the capsule locus (cpsA to cpsD) are common to most serotypes. By analysis of various in-frame deletion and site-directed mutants, the function of their gene products in capsular polysaccharide (CPS) biosynthesis was investigated. We found that while CpsB, C and D are essential for encapsulation, CpsA is not. CpsC and CpsD have similarity to the aminoterminal and carboxy-terminal regions, respectively, of the autophosphorylating protein-tyrosine kinase Wzc from Escherichia coli. Alignment of CpsD with Wzc and other related proteins identified conserved Walker A and B sequence motifs and a tyrosine rich domain close to the carboxy-terminus. We have shown that CpsD is also an autophosphorylating protein-tyrosine kinase and that point mutations in cpsD affecting either the ATP-binding domain (Walker A motif) or the carboxy-terminal [YGX] 4 repeat domain eliminated tyrosine phosphorylation of CpsD. We describe, for the first time, the phenotypic impact of these two mutations on polysaccharide production and show that they affect CPS production differently. Whereas a mutation in the Walker A motif resulted in loss of encapsulation, mutation of the tyrosines in the [YGX] 4 repeat domain resulted in an apparent increase in encapsulation and a mucoid phenotype. These data suggest that autophosphorylation of CpsD at tyrosine attenuates its activity and reduces the level of encapsulation. Additionally, we demonstrated that CpsC is required for CpsD tyrosine phosphorylation and that CpsB influences dephosphorylation of CpsD. These results are consistent with CpsD tyrosine phosphorylation acting to negatively regulate CPS production. This has implications for the function of CpsC/CpsD homologues in both Gram-positive and Gram-negative bacteria and provides a mechanism to explain regulation of CPS production during pathogenesis.

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Regulation of Salmonella typhimurium lipopolysaccharide O antigen chain length is required for virulence; identification of FepE as a second Wzz

Murray¹,

Attridge²,

Morona³

2003

Molecular Microbiology

202

229

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SummaryWzz proteins regulate the degree of polymerization of the O antigen (Oag) subunits in lipopolysaccharide (LPS) biosynthesis. Although the pathogenic relevance of Oag is well recognized, the significance of Oag chain length regulation is not well defined. In this report, Salmonella typhimurium was shown to possess two functional wzz genes resulting in a bimodal Oag length distribution. In addition to the previously described wzz ST that results in long (L) modal length LPS with 16-35 Oag repeat units (RUs), we now report that wzz fepE , a homologue of Escherichia coli fepE , is responsible for the production of very long (VL) modal length LPS Oag, estimated to contain > 100 Oag RUs. Analysis of a series of isogenic S. typhimurium C5 mutants found that the presence of either wzz gene (and hence either modal length) was sufficient for complement resistance and virulence in the mouse model of infection, suggesting a degree of redundancy in the role of these two wzz genes and their respective Oag modal lengths. In contrast, the wzz ST / wzz fepE double mutant, with relatively short, random-length Oag, displayed enhanced susceptibility to complement and was highly attenuated in the mouse. This clearly demonstrates the molecular genetic basis for the longer LPS Oag chains previously identified as the basis of complement resistance in Salmonella . The presence of wzz fepE homologues in the genomic sequences of strains of Escherichia coli , Shigella flexneri and multiple serovars of Salmonella suggests that bimodality of LPS Oag is a common phenomenon in the Enterobacteriaceae.

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Recombinational exchanges at the capsular polysaccharide biosynthetic locus lead to frequent serotype changes among natural isolates of Streptococcus pneumoniae

Coffey

Enright

Daniels

et al. 1998

Molecular Microbiology

289

210

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SummarySerotype 19F variants of the major Spanish multiresistant serotype 23F clone of Streptococcus pneumoniae have been proposed to have arisen by recombinational exchanges at the capsular biosynthetic locus. Members of the Spanish multiresistant serotype 23F clone and the serotype 19F variants were confirmed to be essentially identical in overall genotype, as they were indistinguishable by REP-PCR, and had identical sequences at three polymorphic housekeeping genes. Eight serotype 19F variants were studied and all had large recombinational replacements at the capsular biosynthetic locus. In all cases, one of the recombinational cross-over points appeared to be upstream of dexB, which flanks one end of the capsular locus, and in six of the variants the other cross-over point was downstream of aliA, which flanks the other end of the locus. In two strains a recombinational cross-over point between the introduced serotype 19F capsular region and that of the Spanish serotype 23F clone could be clearly identified, within cpsN in one strain and within cpsM in the other. The differences in the recombinational junctions and sequence polymorphisms within the introduced capsular genes, suggested that the eight serotype 19F variants emerged on at least four separate occasions. Changes in capsular type by recombination may therefore be relatively frequent in pneumococci and this has implications for the long-term efficacy of conjugate pneumococcal vaccines that will protect against only a limited number of serotypes.

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Bacterial polysaccharide co-polymerases share a common framework for control of polymer length

Tocilj

Munger

Proteau

et al. 2008

Nat Struct Mol Biol

103

192

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The chain length distribution of complex polysaccharides present on the bacterial surface is determined by polysaccharide co-polymerases (PCPs) anchored in the inner membrane. We report crystal structures of the periplasmic domains of three PCPs that impart substantially different chain length distributions to surface polysaccharides. Despite very low sequence similarities, they have a common protomer structure with a long central alpha-helix extending 100 A into the periplasm. The protomers self-assemble into bell-shaped oligomers of variable sizes, with a large internal cavity. Electron microscopy shows that one of the full-length PCPs has a similar organization as that observed in the crystal for its periplasmic domain alone. Functional studies suggest that the top of the PCP oligomers is an important region for determining polysaccharide modal length. These structures provide a detailed view of components of the bacterial polysaccharide assembly machinery.

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Molecular, genetic, and topological characterization of O-antigen chain length regulation in Shigella flexneri

1995

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flexneri rfb region is very similar to that of rfb regions of Salmonella enterica (38).In our initial study, we observed that Escherichia coli K-12 strain DH1 harboring various cosmid clones of the S. flexneri rfb region produced either of two types of LPS. One type resembled that observed for the LPS of S. flexneri, with the LPS molecules having a nonrandom distribution of O-antigen chain lengths. In this case, sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) revealed that most of the LPS molecules had an O-antigen chain with 10 to 17 O-antigen tetrasaccharide repeat units. This modal chain length distribution contrasted with the second LPS pattern observed, in which the LPS had a nonmodal distribution of O-antigen chain lengths, mostly of high molecular weight (Ͼ15 O-antigen repeat units). The plasmids which resulted in this second LPS phenotype had a region adjacent to the rfb operon deleted, and a gene(s) which regulated O-antigen length was proposed for this region (28). The effect on the distribution of the length of the O-antigen repeat units by a gene near an rfb region has * Corresponding author.

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Renato Morona

Tyrosine phosphorylation of CpsD negatively regulates capsular polysaccharide biosynthesis in Streptococcus pneumoniae

Regulation of Salmonella typhimurium lipopolysaccharide O antigen chain length is required for virulence; identification of FepE as a second Wzz

Recombinational exchanges at the capsular polysaccharide biosynthetic locus lead to frequent serotype changes among natural isolates of Streptococcus pneumoniae

Bacterial polysaccharide co-polymerases share a common framework for control of polymer length

Molecular, genetic, and topological characterization of O-antigen chain length regulation in Shigella flexneri

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