Rachel F. Haft scite author profile

We showed previously that a mutant strain of group B Streptococcus (GBS) defective in capsule production was avirulent. This study describes the derivation of an unencapsulated mutant from a highly encapsulated wild-type strain of type III GBS, COH1, by transposon mutagenesis with Tn916 delta E. The mutant, COH1-13, was sensitive to phagocytic killing by human leukocytes in vitro and was relatively avirulent in a neonatal rat sepsis model compared with the wild-type strain. No capsular polysaccharide was evident in the cytoplasm or on the cell surface of the mutant strain. The Tn916 delta E insertion site in COH1-13 was mapped to the same chromosomal location as the Tn916 insertion site in the unencapsulated type III mutant COH31-15 reported previously. Nucleotide sequencing of DNA flanking the insertion site in COH1-13 revealed an open reading frame, designated cpsD, with significant homology to the rfbP gene of Salmonella typhimurium. RfbP encodes a galactosyl transferase enzyme that catalyses the transfer of galactose to undecaprenol phosphate, the initial step in O-polysaccharide synthesis. A particulate fraction of a lysate of wild-type strain GBS COH1 mediated the transfer of galactose from UDP-galactose to an endogenous acceptor. The galactose-acceptor complex partitioned into organic solvents, suggesting it is lipid in nature or membrane-associated. Galactosyl transferase activity was significantly reduced in the unencapsulated mutant strain COH1-13. These results, together with the similarity in deduced amino acid sequence between cpsD and rfbP suggest that cpsD encodes a galactosyl transferase essential for assembly of the GBS type III capsular polysaccharide.

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Characterization of cpsF and its product CMP‐N‐acetylneuraminic acid synthetase, a group B streptococcal enzyme that can function in K1 capsular polysaccharide biosynthesis in Escherichia coli

Haft

Wessels

Mebane

et al. 1996

Molecular Microbiology

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Group B Streptococcus (GBS) is the foremost cause of neonatal sepsis and meningitis in the United States. A major virulence factor for GBS is its capsular polysaccharide, a high molecular weight polymer of branched oligosaccharide subunits. N-acetylneuraminic acid (Neu5Ac or sialic acid), at the end of the polysaccharide side chains, is critical to the virulence function of the capsular polysaccharide. Neu5Ac must be activated by CMP-Neu5Ac synthetase before it is incorporated into the polymer. We showed previously that a transposon mutant of a serotype III GBS strain which had no detectable capsular Neu5Ac was deficient in CMP-Neu5Ac-synthetase activity (Wessels et al., 1992). In this paper, we report the identification and characterization of cpsF, a gene interrupted by transposon insertion in the previously described Neu5Ac-deficient mutant. The predicted amino acid sequence of the cpsF gene product shares 57% similarity and 37% identity with CMP-Neu5Ac synthase encoded by the Escherichia coli K1 gene, neuA. The enzymatic function of the protein encoded by cpsF was established by cloning the gene E. coli under the control of the T7 polymerase/promoter. Lysates of E. coli in which the cpsF gene product was expressed, catalysed the condensation of CTP with Neu5Ac to form CMP-Neu5Ac. In addition, when CMP-Neu5Ac synthetase-deficient mutant of E. coli K1 was transformed with cpsF, K1 antigen expression was restored. We concluded that cpsF encodes CMP-Neu5Ac synthetase in type III GBS, and that the GBS enzyme can function in the capsule-synthesis of a heterologous bacterial species.

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Identification of a genetic locus essential for capsule sialylation in type III group B streptococci

et al. 1992

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The type III capsular polysaccharide of group B streptococci (GBS) consists of a linear backbone with short side chains ending in residues of N-acetylneuraminic acid, or sialic acid. The presence of sialic acid on the surface of the organism inhibits activation of the alternative pathway of complement and is thought to be an important element in the virulence function of the capsule. We showed previously that a mutant strain of GBS that expressed a sialic acid-deficient, or asialo, form of the type III polysaccharide was avirulent, supporting a virulence function for capsular sialic acid. We now report the derivation of an asialo capsule mutant from a highly encapsulated wild-type strain of type III GBS, strain COH1, by insertional mutagenesis with transposon Tn916AE. In contrast to the wild-type strain, the asialo mutant strain COHl-11 was sensitive to phagocytic killing by human leukocytes in vitro and was relatively avirulent in a neonatal rat model of GBS infection. The asialo mutant accumulated free intracellular sialic acid, suggesting a defect subsequent to sialic acid synthesis in the biosynthetic pathway leading to capsule sialylation. The specific biosynthetic defect in mutant strain COHl-11 was found to be in the activation of free sialic acid to CMP-sialic acid: CMP-sialic acid synthetase activity was present in the wild-type strain COH1 but was not detected in the asialo mutant strain COHl-11.One of the two transposon insertions in the asialo mutant COHl-11 mapped to the same chromosomal location as one of the two Tn916 insertions in the previously reported asialo mutant COH31-21, identifying this site as a genetic locus necessary for expression of CMP-sialic acid synthetase activity. These studies demonstrate that the enzymatic synthesis of CMP-sialic acid by GBS is an essential step in sialylation of the type III capsular polysaccharide.Group B streptococci (GBS) are the leading cause of neonatal sepsis and meningitis in the United States (4, 13). Several lines of evidence indicate that the GBS capsular polysaccharide is a critical factor in the ability of the organism to produce invasive infection. While the four major capsular types are found with similar frequencies among isolates cultured as commensals from the genital tracts of colonized women, type III strains predominate among isolates from the blood or cerebrospinal fluid of infants with GBS sepsis. Organisms of capsular type III account for approximately 60% of GBS isolated from infants with neonatal sepsis and 80 to 90% of those with meningitis (1, 6). That type III strains are disproportionately prevalent among GBS associated with invasive disease suggested that the type III capsule serves as a virulence factor. This hypothesis was supported by the observation that type III isolates from the blood or cerebrospinal fluid of ill infants were more highly encapsulated than were colonizing strains (16). More direct evidence for the role of the type III capsule in virulence came from our studies of an unencapsulated mutant strain of type III G...

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Tsukamurella paurometabolum: A Novel Pathogen Causing Catheter-Related Bacteremia in Patients with Cancer

Shapiro

Haft

Gantz

et al. 1992

Clinical Infectious Diseases

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Rachel F. Haft

Identification of cpsD, a gene essential for type III capsule expression in group B streptococci

Characterization of cpsF and its product CMP‐N‐acetylneuraminic acid synthetase, a group B streptococcal enzyme that can function in K1 capsular polysaccharide biosynthesis in Escherichia coli

Identification of a genetic locus essential for capsule sialylation in type III group B streptococci

Tsukamurella paurometabolum: A Novel Pathogen Causing Catheter-Related Bacteremia in Patients with Cancer

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