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Virulence of serotype M3 Group A Streptococcusstrains in wax worms (Galleria mellonella larvae)

Authors :
Olsen, Randall J.
Watkins, M. Ebru
Cantu, Concepcion C.
Beres, Stephen B.
Musser, James M.
Source :
Virulence; March 2011, Vol. 2 Issue: 2 p111-119, 9p
Publication Year :
2011

Abstract

Group A Streptococcus(GAS) causes human infections that range in severity from pharyngitis ("strep-throat") to necrotizing fasciitis ("flesh-eating disease").  To facilitate investigation of the molecular basis of host-pathogen interactions, infection models capable of rapidly screening for differences in GAS strain virulence are needed.  To this end, we developed a Galleria mellonellalarvae (wax worm) model of invasive GAS infection and used it to compare the virulence of serotype M3 GAS strains.  We found that GAS causes severe tissue damage and kills wax worms in a dose-dependent manner.  The virulence of genetically distinct GAS strains was compared by Kaplan-Meier survival analysis and determining 50% lethal doses (LD50).  Host-pathogen interactions were further characterized using quantitative culture, histopathology and TaqMan assays.  GAS strains known to be highly pathogenic in mice and monkeys caused significantly lower survival and had significantly lower LD50s in wax worms than GAS strains associated with attenuated virulence or asymptomatic carriage.  Furthermore, isogenic inactivation of proven virulence factors resulted in a significantly increased LD50and decreased lesion size compared to the wild-type strain, a finding that also strongly correlates with animal studies.  Importantly, survival analysis and LD50determination in wax worms supported our hypothesis that a newly emerged GAS subclone that is epidemiologically associated with more human necrotizing fasciitis cases than its progenitor lineage has significantly increased virulence.  We conclude that GAS virulence in wax worms strongly correlates with the data obtained in vertebrate models, and thus, the Galleria mellonellalarva is a useful host organism to study GAS pathogenesis.

Details

Language :
English
ISSN :
21505594 and 21505608
Volume :
2
Issue :
2
Database :
Supplemental Index
Journal :
Virulence
Publication Type :
Periodical
Accession number :
ejs52562934
Full Text :
https://doi.org/10.4161/viru.2.2.14338