A Hyperhemolytic/Hyperpigmented Group B Streptococcus Strain with a CovR Mutation Isolated from an Adolescent Patient with Sore Throat

Overview

Journal Clin Res Infect Dis

Publisher JSciMed Central

Date 2016 Feb 26

PMID 26913295

Citations 8

Authors

Christopher Whidbey

Kellie Burnside

Raquel M Martinez

Claire Gendrin

Jay Vornhagen

Andrew Frando

Maria Isabel Harrell

Ryan McAdams

Lakshmi Rajagopal

Affiliations

Soon will be listed here.

Abstract

Group B Streptococci (GBS) are ß-hemolytic, gram-positive bacteria that are typically associated with infections in human newborns or immunocompromised adults. However, mutation in the two-component regulator CovR/S relieves repression of hemolysin, potentially increasing virulence of GBS. We report the isolation of hyperhemolytic/hyperpigmented GBS strain from an adolescent patient who presented to the University of Washington clinic with symptoms of sore throat. While the patient also tested positive for mononucleosis, a GBS strain with increased hemolysis was isolated from the throat swab obtained from the patient. As hyperhemolytic/hyperpigmented GBS strains are typically associated with mutations in the regulator CovR/CovS, we sequenced the loci in the clinical isolate. An adenine to cytosine mutation resulting in a change in amino acid coding sequence from glutamine at position 120 to proline in CovR (Q120P) was identified. Introduction of the Q120P amino acid substitution in a CovR complementation plasmid abolished complementation of a Δ mutant derived from the wild type GBS serotype Ia strain A909; these results confirm that the hyperhemolysis observed in the clinical isolate is due to the Q120P substitution in CovR. Antibiotic was prescribed and the patient's symptoms resolved without reported complications. This study represents the first report of the isolation of a hyperhemolytic/hyperpigmented GBS strain due to a mutation from an adolescent patient with persistent sore throat who was also diagnosed with mononucleosis. The isolation of GBS CovR/S mutants indicates their presence in settings of co-infections and includes adolescents.

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