Domain shuffling of a highly mutable ligand‐binding fold drives adhesin generation across the bacterial kingdom

Author:

Barringer Rob1,Parnell Alice E.12,Lafita Aleix3ORCID,Monzon Vivian3,Back Catherine R.12,Madej Mariusz4,Potempa Jan45,Nobbs Angela H.6ORCID,Burston Steven G.1,Bateman Alex3,Race Paul R.12ORCID

Affiliation:

1. School of Biochemistry University of Bristol, University Walk Bristol BS8 1TD UK

2. BrisSynBio Synthetic Biology Research Centre University of Bristol, Life Sciences Building Tyndall Avenue Bristol BS8 1TQ UK

3. European Molecular Biology Laboratory European Bioinformatics Institute (EMBL‐EBI) Wellcome Genome Campus Hinxton CB10 1SD UK

4. Department of Microbiology, Faculty of Biochemistry, Biophysics, and Biotechnology Jagiellonian University Krakow Poland

5. Department of Oral Immunology and Infectious Diseases University of Louisville School of Dentistry Louisville Kentucky USA

6. Bristol Dental School, University of Bristol Lower Maudlin Street Bristol BS1 2LY UK

Abstract

AbstractBacterial fibrillar adhesins are specialized extracellular polypeptides that promote the attachment of bacteria to the surfaces of other cells or materials. Adhesin‐mediated interactions are critical for the establishment and persistence of stable bacterial populations within diverse environmental niches and are important determinants of virulence. The fibronectin (Fn)‐binding fibrillar adhesin CshA, and its paralogue CshB, play important roles in host colonization by the oral commensal and opportunistic pathogen Streptococcus gordonii. As paralogues are often catalysts for functional diversification, we have probed the early stages of structural and functional divergence in Csh proteins by determining the X‐ray crystal structure of the CshB adhesive domain NR2 and characterizing its Fn‐binding properties in vitro. Despite sharing a common fold, CshB_NR2 displays an ~1.7‐fold reduction in Fn‐binding affinity relative to CshA_NR2. This correlates with reduced electrostatic charge in the Fn‐binding cleft. Complementary bioinformatic studies reveal that homologues of CshA/B_NR2 domains are widely distributed in both Gram‐positive and Gram‐negative bacteria, where they are found housed within functionally cryptic multi‐domain polypeptides. Our findings are consistent with the classification of Csh adhesins and their relatives as members of the recently defined polymer adhesin domain (PAD) family of bacterial proteins.

Funder

Biotechnology and Biological Sciences Research Council

European Molecular Biology Laboratory

Publisher

Wiley

Subject

Molecular Biology,Biochemistry,Structural Biology

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