Abstract
Streptococcus agalactiae (Group B streptococcus, GBS) is a leading cause of infections in neonates and an emerging pathogen in adults. The Lancefield Group B carbohydrate (GBC) is a peptidoglycan-anchored antigen that defines this species as a Group B Streptococcus. Despite earlier immunological and biochemical characterizations, the function of this abundant glycopolymer has never been addressed experimentally. Here, we inactivated the gene gbcO encoding a putative UDP-N-acetylglucosamine-1-phosphate:lipid phosphate transferase thought to catalyze the first step of GBC synthesis. Indeed, the gbcO mutant was unable to synthesize the GBC polymer, and displayed an important growth defect in vitro. Electron microscopy study of the GBC-depleted strain of S. agalactiae revealed a series of growth-related abnormalities: random placement of septa, defective cell division and separation processes, and aberrant cell morphology. Furthermore, vancomycin labeling and peptidoglycan structure analysis demonstrated that, in the absence of GBC, cells failed to initiate normal PG synthesis and cannot complete polymerization of the murein sacculus. Finally, the subcellular localization of the PG hydrolase PcsB, which has a critical role in cell division of streptococci, was altered in the gbcO mutant. Collectively, these findings show that GBC is an essential component of the cell wall of S. agalactiae whose function is reminiscent of that of conventional wall teichoic acids found in Staphylococcus aureus or Bacillus subtilis. Furthermore, our findings raise the possibility that GBC-like molecules play a major role in the growth of most if not all beta –hemolytic streptococci.
Highlights
Streptococcus agalactiae was first recognized as a veterinary pathogen causing mastitis in cattle and later as a human pathogen responsible for severe neonatal infections [1,2,3,4]
Concluding remarks The cell wall of S. agalactiae contains two PG anchored polysaccharides: the capsule, a major GBS virulence factor [38,39,40], and the group B-specific antigen (GBC), for which we reveal an important biological role linked to PG biosynthesis and cell division
GBC appeared to be pivotal to the S. agalactiae cell wall organization and its absence was associated with a substantial loss of fitness
Summary
Streptococcus agalactiae was first recognized as a veterinary pathogen causing mastitis in cattle and later as a human pathogen responsible for severe neonatal infections [1,2,3,4]. While it remains a major cause of morbidity and mortality in infants, S. agalactiae is a human commensal that colonizes the rectal and the vaginal mucosa of 15–30% of women [3,5]. Rebecca Lancefield originally defined two cell wall carbohydrate antigens in S. agalactiae: the group B-specific antigen (GBC) common to all strains and the capsular antigen which currently defines 10 different serotypes (Ia, Ib, II to IX) [6]. The analysis of the genome of S. agalactiae did not reveal
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