PURPOSE OF REVIEW: Group B streptococcus is a leading cause of neonatal pneumonia, septicaemia and meningitis. Up to one quarter of women in labour are now given intravenous antibiotics to prevent early-onset disease by the organism, a situation that will remain constant until a successful vaccine is available. From a molecular understanding of the pathogenicity of group B streptococcus we may be able to devise novel means for controlling disease, such as identifying inhibitors of key metabolic pathways or regulatory networks. This review summarizes our post-genomic knowledge of the regulation, metabolism and virulence of group B streptococcus. RECENT FINDINGS: Although advances have been made in the understanding of classic group B streptococcus virulence traits, such as capsular polysaccharide, beta-haemolysin, C5a peptidase, adhesins and immunogenic surface proteins, the major recent contribution to group B streptococcus pathogenesis has been the whole genome sequencing of three group B streptococcus strains, representing serotypes Ia, III and V. From these genomes, we not only see where the classic virulence genes map, but we can also gain insights into the metabolism and regulation of the organism and how these affect its virulence. SUMMARY: Knowledge of virulence factors and the organism's metabolism and gene regulation offers opportunities to find novel means of preventing group B streptococcus infection in babies.
PURPOSE OF REVIEW: Group B streptococcus is a leading cause of neonatal pneumonia, septicaemia and meningitis. Up to one quarter of women in labour are now given intravenous antibiotics to prevent early-onset disease by the organism, a situation that will remain constant until a successful vaccine is available. From a molecular understanding of the pathogenicity of group B streptococcus we may be able to devise novel means for controlling disease, such as identifying inhibitors of key metabolic pathways or regulatory networks. This review summarizes our post-genomic knowledge of the regulation, metabolism and virulence of group B streptococcus. RECENT FINDINGS: Although advances have been made in the understanding of classic group B streptococcus virulence traits, such as capsular polysaccharide, beta-haemolysin, C5a peptidase, adhesins and immunogenic surface proteins, the major recent contribution to group B streptococcus pathogenesis has been the whole genome sequencing of three group B streptococcus strains, representing serotypes Ia, III and V. From these genomes, we not only see where the classic virulence genes map, but we can also gain insights into the metabolism and regulation of the organism and how these affect its virulence. SUMMARY: Knowledge of virulence factors and the organism's metabolism and gene regulation offers opportunities to find novel means of preventing group B streptococcusinfection in babies.
Authors: E J Bishop; C Shilton; S Benedict; F Kong; G L Gilbert; D Gal; D Godoy; B G Spratt; B J Currie Journal: Epidemiol Infect Date: 2007-04-20 Impact factor: 2.451
Authors: Mark A Herbert; Catriona J E Beveridge; David McCormick; Emmelien Aten; Nicola Jones; Lori A S Snyder; Nigel J Saunders Journal: BMC Microbiol Date: 2005-05-24 Impact factor: 3.605