Streptococcus Oralis Subsp. Produces Monolateral Serine-Rich Repeat Protein Fibrils, One of Which Contributes to Saliva Binding Via Sialic Acid

Overview

Journal Infect Immun

Publisher American Society for Microbiology

Specialty Allergy & Immunology

Date 2019 Jul 17

PMID 31308084

Citations 13

Authors

Allen Ronis

Kenneth Brockman

Anirudh K Singh

Meztlli O Gaytan

Alexander Wong

Sean McGrath

C David Owen

Vincent Magrini

Richard K Wilson

Mark van der Linden

Samantha J King

Affiliations

Soon will be listed here.

Abstract

Our studies reveal that the oral colonizer and cause of infective endocarditis subsp. displays a striking monolateral distribution of surface fibrils. Furthermore, our data suggest that these fibrils impact the structure of adherent bacterial chains. Mutagenesis studies indicate that these fibrils are dependent on three serine-rich repeat proteins (SRRPs), here named ibril-ssociated rotein (FapA), FapB, and FapC, and that each SRRP forms a different fibril with a distinct distribution. SRRPs are a family of bacterial adhesins that have diverse roles in adhesion and that can bind to different receptors through modular nonrepeat region domains. Amino acid sequence and predicted structural similarity searches using the nonrepeat regions suggested that FapA may contribute to interspecies interactions, that FapA and FapB may contribute to intraspecies interactions, and that FapC may contribute to sialic acid binding. We demonstrate that a mutant was significantly reduced in binding to saliva. We confirmed a role for FapC in sialic acid binding by demonstrating that the parental strain was significantly reduced in adhesion upon addition of a recombinantly expressed, sialic acid-specific, carbohydrate binding module, while the mutant was not reduced. However, mutation of a residue previously shown to be essential for sialic acid binding did not decrease bacterial adhesion, leaving the precise mechanism of FapC-mediated adhesion to sialic acid to be defined. We also demonstrate that the presence of any one of the SRRPs is sufficient for efficient biofilm formation. Similar structures were observed on all infective endocarditis isolates examined, suggesting that this distribution is a conserved feature of this subspecies.

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