Germline-encoded neutralization of a Staphylococcus aureus virulence factor by the human antibody repertoire

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Abstract

Staphylococcus aureus is both an important pathogen and a human commensal. To explore this ambivalent relationship between host and microbe, we analysed the memory humoral response against IsdB, a protein involved in iron acquisition, in four healthy donors. Here we show that in all donors a heavily biased use of two immunoglobulin heavy chain germlines generated high affinity (pM) antibodies that neutralize the two IsdB NEAT domains, IGHV4-39 for NEAT1 and IGHV1-69 for NEAT2. In contrast to the typical antibody/antigen interactions, the binding is primarily driven by the germline-encoded hydrophobic CDRH-2 motifs of IGHV1-69 and IGHV4-39, with a binding mechanism nearly identical for each antibody derived from different donors. Our results suggest that IGHV1-69 and IGHV4-39, while part of the adaptive immune system, may have evolved under selection pressure to encode a binding motif innately capable of recognizing and neutralizing a structurally conserved protein domain involved in pathogen iron acquisition.

Abstract

Staphylococcus aureus can both cause disease in humans and be present with no discernible effect. Here, the authors look in detail at the memory immune response against a protein involved in iron acquisition.

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Most cited references 47

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Concerted and birth-and-death evolution of multigene families.

Masatoshi Nei, Alejandro P Rooney (2005)

Until around 1990, most multigene families were thought to be subject to concerted evolution, in which all member genes of a family evolve as a unit in concert. However, phylogenetic analysis of MHC and other immune system genes showed a quite different evolutionary pattern, and a new model called birth-and-death evolution was proposed. In this model, new genes are created by gene duplication and some duplicate genes stay in the genome for a long time, whereas others are inactivated or deleted from the genome. Later investigations have shown that most non-rRNA genes including highly conserved histone or ubiquitin genes are subject to this type of evolution. However, the controversy over the two models is still continuing because the distinction between the two models becomes difficult when sequence differences are small. Unlike concerted evolution, the model of birth-and-death evolution can give some insights into the origins of new genetic systems or new phenotypic characters.

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Diversity in the CDR3 region of V(H) is sufficient for most antibody specificities.

J. Xu, M Davis (2000)

All rearranging antigen receptor genes have one or two highly diverse complementarity determining regions (CDRs) among the six that typically form the ligand binding surface. We report here that, in the case of antibodies, diversity at one of these regions, CDR3 of the V(H) domain, is sufficient to permit otherwise identical IgM molecules to distinguish between a variety of hapten and protein antigens. Furthermore, we find that somatic mutation can allow such antibodies to achieve surprisingly high affinities. These results are consistent with a model in which the highly diverse CDR3 loops are the key determinant of specificity in antigen recognition in both T cell receptors (TCR) and antibodies, whereas the germline-encoded CDR1 and CDR2 sequences are much more cross-reactive.

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IMGT unique numbering for immunoglobulin and T cell receptor variable domains and Ig superfamily V-like domains.

Marie-Paule Lefranc, Christelle Pommié, Manuel L. Ruíz … (2003)

IMGT, the international ImMunoGeneTics database (http://imgt.cines.fr) is a high quality integrated information system specializing in immunoglobulins (IG), T cell receptors (TR) and major histocompatibility complex (MHC) of human and other vertebrates. IMGT provides a common access to expertly annotated data on the genome, proteome, genetics and structure of the IG and TR, based on the IMGT Scientific chart and IMGT-ONTOLOGY. The IMGT unique numbering defined for the IG and TR variable regions and domains of all jawed vertebrates has allowed a redefinition of the limits of the framework (FR-IMGT) and complementarity determining regions (CDR-IMGT), leading, for the first time, to a standardized description of mutations, allelic polymorphisms, 2D representations (Colliers de Perles) and 3D structures, whatever the antigen receptor, the chain type, or the species. The IMGT numbering has been extended to the V-like domain and is, therefore, highly valuable for comparative analysis and evolution studies of proteins belonging to the IG superfamily.

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Author and article information

Journal

Journal ID (nlm-ta): Nat Commun

Journal ID (iso-abbrev): Nat Commun

Title: Nature Communications

Publisher: Nature Publishing Group

ISSN (Electronic): 2041-1723

Publication date (Electronic): 18 November 2016

Publication date Collection: 2016

Volume: 7

Electronic Location Identifier: 13376

Affiliations

[1 ]Rinat R&D, Pfizer Inc. , 230 East Grand Avenue, South San Francisco, California 94080, USA

Author notes

[a ] yikandy.yeung@ 123456pfizer.com

[b ] javier.chaparro-riggers@ 123456pfizer.com

[*]

These authors contributed equally to this work

[†]

Present address: Bristol-Myers Squibb Inc., Redwood City, California 94063, USA

[‡]

Present address: Distributed Bio Inc., South San Francisco, California 94080, USA

[§]

Present address: 23andMe, Mountain View, California 94041, USA

[∥]

Present address: Institute for Computational Health Sciences, University of California-San Francisco, San Francisco, California 94143, USA

[¶]

Present address: Alexo Therapeutics Inc., South San Francisco, California 94080, USA

Article

Publisher Item ID: ncomms13376

DOI: 10.1038/ncomms13376

PMC ID: 5120205

PubMed ID: 27857134

SO-VID: e8969d02-2f46-4e0b-9e2c-9546f6a1d522

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Germline-encoded neutralization of a Staphylococcus aureus virulence factor by the human antibody repertoire

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Most cited references 47

Concerted and birth-and-death evolution of multigene families.

Diversity in the CDR3 region of V(H) is sufficient for most antibody specificities.

IMGT unique numbering for immunoglobulin and T cell receptor variable domains and Ig superfamily V-like domains.

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