Sarah M. Gilliland scite author profile

The complement system is an important component of the innate immune response to bacterial pathogens, including Streptococcus pneumoniae. The classical complement pathway is activated by antibody-antigen complexes on the bacterial surface and has been considered predominately to be an effector of the adaptive immune response, whereas the alternative and mannose-binding lectin pathways are activated directly by bacterial cell surface components and are considered effectors of the innate immune response. Recently, a role has been suggested for the classical pathway during innate immunity that is activated by natural IgM or components of the acute-phase response bound to bacterial pathogens. However, the functional importance of the classical pathway for innate immunity to S. pneumoniae and other bacterial pathogens, and its relative contribution compared with the alternative and mannose-binding lectin pathways has not been defined. By using strains of mice with genetic deficiencies of complement components and secretory IgM we have investigated the role of each complement pathway and natural IgM for innate immunity to S. pneumoniae. Our results show that the proportion of a population of S. pneumoniae bound by C3 depends mainly on the classical pathway, whereas the intensity of C3 binding depends on the alternative pathway. Furthermore, the classical pathway, partially targeted by the binding of natural IgM to bacteria, is the dominant pathway for activation of the complement system during innate immunity to S. pneumoniae, loss of which results in rapidly progressing septicemia and impaired macrophage activation. These data demonstrate the vital role of the classical pathway for innate immunity to a bacterial pathogen.

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A Streptococcus pneumoniae pathogenicity island encoding an ABC transporter involved in iron uptake and virulence

Brown

Gilliland

Holden³

2001

Molecular Microbiology

258

306

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SummaryRestricted iron availability is a major obstacle to growth and survival of pathogenic bacteria during infection. In contrast to Gram-negative pathogens, little is known about how Gram-positive pathogens obtain this essential metal. We have identified two Streptococcus pneumoniae genetic loci, pit1 and pit2, encoding homologues of ABC iron transporters that are required for iron uptake by this organism. S. pneumoniae strains containing disrupted copies of either pit1 or pit2 had decreased sensitivity to the iron-dependent antibiotic streptonigrin, and a strain containing disrupted copies of both pit1 and pit2 was unable to use haemoglobin as an iron source and had a reduced rate of iron uptake. The pit2 2 strain was moderately and the pit1 2 /pit2 2 strain strongly attenuated in virulence in mouse models of pulmonary and systemic infection, showing that the pit loci play a critical role during in vivo growth of S. pneumoniae. The pit2 locus is contained within a 27 kb region of chromosomal DNA that has several features of Gramnegative bacterial pathogenicity islands. This probable pathogenicity island (PPI-1) is the first to be described for S. pneumoniae, and its acquisition is likely to have played a significant role in the evolution of this important human pathogen.

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Sarah M. Gilliland

The classical pathway is the dominant complement pathway required for innate immunity toStreptococcus pneumoniaeinfection in mice

A Streptococcus pneumoniae pathogenicity island encoding an ABC transporter involved in iron uptake and virulence

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