Genome-wide discovery of novel M1T1 group A streptococcal determinants important for fitness and virulence during soft-tissue infection.

Yoann Le Breton,Joshua Lieberman,Kevin S Mciver,Ganesh S Sundar,Emrul Islam,Hervé Tettelin,Najib M El-Sayed,Ashton T Belew,Mark E Shirtliff,Jeffrey A Freiberg,Michael R Wessels

doi:10.1371/journal.ppat.1006584

Yoann Le Breton, Joshua Lieberman + Show 9 more

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https://doi.org/10.1371/journal.ppat.1006584

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Journal: PLoS Pathogens	Publication Date: Aug 23, 2017
Citations: 42	License type: CC BY 4.0

Affiliation: University of Maryland Extension

Abstract

The Group A Streptococcus remains a significant human pathogen causing a wide array of disease ranging from self-limiting to life-threatening invasive infections. Epithelium (skin or throat) colonization with progression to the subepithelial tissues is the common step in all GAS infections. Here, we used transposon-sequencing (Tn-seq) to define the GAS 5448 genetic requirements for in vivo fitness in subepithelial tissue. A near-saturation transposon library of the M1T1 GAS 5448 strain was injected subcutaneously into mice, producing suppurative inflammation at 24 h that progressed to prominent abscesses with tissue necrosis at 48 h. The library composition was monitored en masse by Tn-seq and ratios of mutant abundance comparing the output (12, 24 and 48 h) versus input (T0) mutant pools were calculated for each gene. We identified a total of 273 subcutaneous fitness (scf) genes with 147 genes (55 of unknown function) critical for the M1T1 GAS 5448 fitness in vivo; and 126 genes (53 of unknown function) potentially linked to in vivo fitness advantage. Selected scf genes were validated in competitive subcutaneous infection with parental 5448. Two uncharacterized genes, scfA and scfB, encoding putative membrane-associated proteins and conserved among Gram-positive pathogens, were further characterized. Defined scfAB mutants in GAS were outcompeted by wild type 5448 in vivo, attenuated for lesion formation in the soft tissue infection model and dissemination to the bloodstream. We hypothesize that scfAB play an integral role in enhancing adaptation and fitness of GAS during localized skin infection, and potentially in propagation to other deeper host environments.

Highlights

The Group A Streptococcus (Streptococcus pyogenes, GAS) is a strict human pathogen of high prevalence worldwide [1,2,3,4]
We present a genome-wide Tn-seq analysis to identify M1T1 GAS 5448 genetic determinants necessary for in vivo fitness using a murine model of skin and soft tissue infection
Reads were summed for each GAS gene, and the ratios of mutant abundance comparing the output versus input mutant pools for each gene was calculated using the DEseq2 pipeline

Summary

Introduction

The Group A Streptococcus (Streptococcus pyogenes, GAS) is a strict human pathogen of high prevalence worldwide [1,2,3,4]. The WHO ranks GAS in the top 10 leading causes of morbidity and mortality from infectious diseases, responsible for over 500,000 deaths annually [5]. To successfully infect its human host, GAS must adapt to the different niches encountered during the infection process, including physicochemical environmental changes, fluctuating metabolic sources [10,11,12,13], as well as the immune response [14]. Comparative genomics analyses established that the GAS pan-genome contains over 3900 genes with a set of ca. A large proportion of GAS genes are still annotated as having no known or predicted function; and accurate functional annotation of GAS genes, in the context of disease manifestations, is key to understanding GAS pathogenesis and improving diagnostics and therapeutics [20]

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