Contribution of Streptococcus Pyogenes M87 Protein to Innate Immune Resistance and Virulence

Overview

Journal Microb Pathog

Specialties Infectious Diseases
Microbiology

Date 2022 Jun 20

PMID 35724830

Authors

Yujiro Hirose

Piotr Kolesinski

Masanobu Hiraoka

Satoshi Uchiyama

Raymond H Zurich

Monika Kumaraswamy

Elisabet Bjanes

Partho Ghosh

Shigetada Kawabata

Victor Nizet

Affiliations

Soon will be listed here.

Abstract

Streptococcus pyogenes is a pre-eminent human pathogen, and classified by the hypervariable sequence of the emm gene encoding the cell surface M protein. Among a diversity of M/emm types, the prevalence of the M/emm87 strain has been steadily increasing in invasive S. pyogenes infections. Although M protein is the major virulence factor for globally disseminated M/emm1 strain, it is unclear if or how the corresponding M protein of M/emm87 strain (M87 protein) functions as a virulence factor. Here, we use targeted mutagenesis to show that the M87 protein contributes to bacterial resistance to neutrophil and whole blood killing and promotes the release of mature IL-1β from macrophages. While deletion of emm87 did not influence epithelial cell adherence and nasal colonization, it significantly reduced S. pyogenes-induced mortality and bacterial loads in a murine systemic infection model. Our data suggest that emm87 is involved in pathogenesis by modulating the interaction between S. pyogenes and innate immune cells.

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