Martina L. Sanderson-Smith scite author profile

SUMMARY Streptococcus pyogenes , also known as group A Streptococcus (GAS), causes mild human infections such as pharyngitis and impetigo and serious infections such as necrotizing fasciitis and streptococcal toxic shock syndrome. Furthermore, repeated GAS infections may trigger autoimmune diseases, including acute poststreptococcal glomerulonephritis, acute rheumatic fever, and rheumatic heart disease. Combined, these diseases account for over half a million deaths per year globally. Genomic and molecular analyses have now characterized a large number of GAS virulence determinants, many of which exhibit overlap and redundancy in the processes of adhesion and colonization, innate immune resistance, and the capacity to facilitate tissue barrier degradation and spread within the human host. This improved understanding of the contribution of individual virulence determinants to the disease process has led to the formulation of models of GAS disease progression, which may lead to better treatment and intervention strategies. While GAS remains sensitive to all penicillins and cephalosporins, rising resistance to other antibiotics used in disease treatment is an increasing worldwide concern. Several GAS vaccine formulations that elicit protective immunity in animal models have shown promise in nonhuman primate and early-stage human trials. The development of a safe and efficacious commercial human vaccine for the prophylaxis of GAS disease remains a high priority.

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DNase Sda1 provides selection pressure for a switch to invasive group A streptococcal infection

Walker

Hollands

Sanderson-Smith

et al. 2007

Nat Med

390

542

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Most invasive bacterial infections are caused by species that more commonly colonize the human host with minimal symptoms. Although phenotypic or genetic correlates underlying a bacterium's shift to enhanced virulence have been studied, the in vivo selection pressure governing such shifts are poorly understood. The globally disseminated M1T1 clone of group A Streptococcus (GAS) is linked with rare but life-threatening syndromes of necrotizing fasciitis and toxic shock syndrome. Mutations in the GAS control of virulence regulatory sensor kinase (covRS) operon are associated with severe invasive disease, abolishing expression of a broad spectrum cysteine protease (SpeB)2,3 and allowing the recruitment and activation of host plasminogen on the bacterial surface. Here we describe how bacteriophage-encoded GAS DNase (Sda1), which facilitates the pathogen's escape from neutrophil extracellular traps (NETs)5,6, serves as a selective force for covRS mutation. The results provide a paradigm whereby natural selection exerted by the innate immune system generate hypervirulent bacterial variants with increased risk of systemic dissemination. Keywords CMMB Disciplines Life Sciences | Physical Sciences and Mathematics | Social and Behavioral Sciences Publication DetailsThis article was originally published as Walker, MJ et al, DNase Sda1 provides selection pressure for a switch to invasive group A streptococcal infection, Nature Medicine 13, 2007, 981- GAS is estimated to cause ~700 million cases of self-limited throat or skin infection each year worldwide 7 . Invasive GAS disease occurs in approximately 1/1,000 cases, with associated mortality of 25% 7 . Epidemic invasive disease is associated with the emergence of the globally disseminated GAS M1T1 clone 1,8 , which is distinguished from related strains by acquisition of prophages encoding virulence determinants such as superantigen SpeA and DNase Sda1 9,10 . In the M1T1 GAS clone, the transition from local to systemic infection can be linked to mutations in the two-component covRS regulator. The effect of these mutations is a distinct shift in the transcriptional 3 profile of invasive GAS isolates compared to mucosal (throat) isolates 3 . The covRS mutation and changes in gene expression are recapitulated upon subcutaneous challenge of mice and analysis of GAS disseminating to the spleen in comparison with those in the original inocolum 3 . Prominent changes in the transcriptional profile of invasive GAS isolates include a strong up-regulation of the DNase gene sda1, and a marked decrease in expression of the gene encoding the cysteine protease SpeB 3 .Sda1 is a virulence factor that protects GAS against neutrophil killing by degrading the DNA framework of NETs 5,6 . Abolishment of SpeB expression allows accumulation and activation of the broad spectrum host protease plasmin on the GAS bacterial surface 4 . A clinical correlation of GAS invasive disease severity and diminished SpeB expression has been established 2 .To elucidate the selection pressure for the rap...

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A Systematic and Functional Classification of Streptococcus pyogenes That Serves as a New Tool for Molecular Typing and Vaccine Development

et al. 2014

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Streptococcus pyogenes ranks among the main causes of mortality from bacterial infections worldwide. Currently there is no vaccine to prevent diseases such as rheumatic heart disease and invasive streptococcal infection. The streptococcal M protein that is used as the substrate for epidemiological typing is both a virulence factor and a vaccine antigen. Over 220 variants of this protein have been described, making comparisons between proteins difficult, and hindering M protein-based vaccine development. A functional classification based on 48 emm-clusters containing closely related M proteins that share binding and structural properties is proposed. The need for a paradigm shift from type-specific immunity against S. pyogenes to emm-cluster based immunity for this bacterium should be further investigated. Implementation of this emm-cluster-based system as a standard typing scheme for S. pyogenes will facilitate the design of future studies of M protein function, streptococcal virulence, epidemiological surveillance, and vaccine development.

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