Abstract
The anaerobic bacterium Peptostreptococcus magnus is a human commensal and pathogen. Previous work has shown that strains of P. magnus isolated from patients with gynecological disease (vaginosis) frequently express an immunoglobulin (Ig) light chain-binding protein called protein L. Here we report that strains isolated from localized suppurative infections bind human serum albumin (HSA), whereas commensal isolates bind neither Ig nor HSA. The HSA-binding protein PAB was extracted from the bacterial surface or isolated from the culture supernatant of the P. magnus strain ALB8. Protein PAB was shown to have two homologous HSA-binding domains, GA and uGA. GA is absent in the sequence of a related protein from another P. magnus strain and shows a high degree of homology to the HSA-binding domains of streptococcal protein G. Therefore GA is believed to have recently been shuffled as a module from genes of other bacterial species into the protein PAB gene. This GA module was shown to exhibit a much higher affinity for HSA than uGA and was also found to be present in all of the isolates tested from localized suppurative infections, indicating a role in virulence. Moreover, when peptostreptococci or streptococci expressing the GA module were grown in the presence of HSA, the growth rate was substantially increased. Thus, the HSA binding activity of the GA module adds selective advantages to the bacteria, which increases their virulence in the case of P. magnus strains.
Highlights
As a rule, anaerobic infections are caused by bacteria that are part of the indigenous flora of mucosal surfaces and the skin
human serum albumin (HSA)-binding Proteins Are Preferentially Expressed by Strains of P. magnus Isolated from Patients with Localized Suppurative Infections—Forty-eight P. magnus strains were isolated from patients with localized suppurative infections (n ϭ 30) or vaginosis (n ϭ 8)
When the group of strains causing suppurative infections was compared with the commensal strains, there was a significant difference in the prevalence of HSA binding as tested with the 2 test (p Ͻ 0.0001), implying a role for protein PAB in virulence
Summary
Anaerobic infections are caused by bacteria that are part of the indigenous flora of mucosal surfaces and the skin. The gene structure of the albumin-binding protein PAB has been shown to contain a centrally located functional domain of 45 amino acid residues responsible for the binding of HSA (Fig. 1) This domain has been subject to module shuffling between bacterial species, and was subsequently named the GA module, protein G-related albumin binding module [13]. Such shuffling of modules seems to be a persistent activity among this group of genes, and when a consensus sequence of 15 nucleotides (called recer sequence) flanking the different modules in the P. magnus family of surface proteins was identified, a model for the shuffling of modules was proposed [21]. In the case of M proteins, the binding of HSA is located to the so-called C repeats [10, 11], which show no homology to the GA module, suggesting that these structures have evolved separately
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