Literature DB >> 21304166

An insertion mutation that distorts antibody binding site architecture enhances function of a human antibody.

Jens C Krause1, Damian C Ekiert, Terrence M Tumpey, Patricia B Smith, Ian A Wilson, James E Crowe.   

Abstract

The structural and functional significance of somatic insertions and deletions in antibody chains is unclear. Here, we demonstrate that a naturally occurring three-amino-acid insertion within the influenza virus-specific <span class="Species">human monoclonal antibody 2D1 heavy-chain variable region reconfigures the antibody-combining site and contributes to its high potency against the 1918 and 2009 pandemic H1N1 influenza viruses. The insertion arose through a series of events, including a somatic point mutation in a predicted hot-spot motif, introduction of a new hot-spot motif, a molecular duplication due to polymerase slippage, a deletion due to misalignment, and additional somatic point mutations. Atomic resolution structures of the wild-type antibody and a variant in which the insertion was removed revealed that the three-amino-acid insertion near the base of heavy-chain complementarity-determining region (CDR) H2 resulted in a bulge in that loop. This enlarged CDR H2 loop impinges on adjacent regions, causing distortion of the CDR H1 architecture and its displacement away from the antigen-combining site. Removal of the insertion restores the canonical structure of CDR H1 and CDR H2, but binding, neutralization activity, and in vivo activity were reduced markedly because of steric conflict of CDR H1 with the hemagglutinin antigen.
Copyright © 2011 Krause et al.

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Year:  2011        PMID: 21304166      PMCID: PMC3037006          DOI: 10.1128/mBio.00345-10

Source DB:  PubMed          Journal:  MBio            Impact factor:   7.867


  32 in total

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3.  PHENIX: building new software for automated crystallographic structure determination.

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Journal:  Acta Crystallogr D Biol Crystallogr       Date:  2002-10-21

4.  Cutting edge: DGYW/WRCH is a better predictor of mutability at G:C bases in Ig hypermutation than the widely accepted RGYW/WRCY motif and probably reflects a two-step activation-induced cytidine deaminase-triggered process.

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Journal:  J Immunol       Date:  2004-03-15       Impact factor: 5.422

5.  Somatic hypermutation of human immunoglobulin heavy chain genes: targeting of RGYW motifs on both DNA strands.

Authors:  T Dörner; S J Foster; N L Farner; P E Lipsky
Journal:  Eur J Immunol       Date:  1998-10       Impact factor: 5.532

6.  Frequent occurrence of deletions and duplications during somatic hypermutation: implications for oncogene translocations and heavy chain disease.

Authors:  T Goossens; U Klein; R Küppers
Journal:  Proc Natl Acad Sci U S A       Date:  1998-03-03       Impact factor: 11.205

7.  Structure of the haemagglutinin membrane glycoprotein of influenza virus at 3 A resolution.

Authors:  I A Wilson; J J Skehel; D C Wiley
Journal:  Nature       Date:  1981-01-29       Impact factor: 49.962

8.  The antigenic structure of the influenza virus A/PR/8/34 hemagglutinin (H1 subtype).

Authors:  A J Caton; G G Brownlee; J W Yewdell; W Gerhard
Journal:  Cell       Date:  1982-12       Impact factor: 41.582

9.  Somatic hypermutation introduces insertions and deletions into immunoglobulin V genes.

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Journal:  J Exp Med       Date:  1998-01-05       Impact factor: 14.307

10.  Hypermutation of immunoglobulin genes in memory B cells of DNA repair-deficient mice.

Authors:  H Jacobs; Y Fukita; G T van der Horst; J de Boer; G Weeda; J Essers; N de Wind; B P Engelward; L Samson; S Verbeek; J M de Murcia; G de Murcia; H te Riele; K Rajewsky
Journal:  J Exp Med       Date:  1998-06-01       Impact factor: 14.307
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2.  Nucleotide insertions and deletions complement point mutations to massively expand the diversity created by somatic hypermutation of antibodies.

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Journal:  J Biol Chem       Date:  2014-10-15       Impact factor: 5.157

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Authors:  Gillian M Air
Journal:  Curr Opin Virol       Date:  2015-04-04       Impact factor: 7.090

4.  In vitro evolution of antibody affinity via insertional scanning mutagenesis of an entire antibody variable region.

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5.  Coupling mammalian cell surface display with somatic hypermutation for the discovery and maturation of human antibodies.

Authors:  Peter M Bowers; Robert A Horlick; Tamlyn Y Neben; Rachelle M Toobian; Geoffrey L Tomlinson; Jennifer L Dalton; Heather A Jones; Andy Chen; Laurence Altobell; Xue Zhang; John L Macomber; Irina P Krapf; Betty F Wu; Audrey McConnell; Betty Chau; Trevin Holland; Ashley D Berkebile; Steven S Neben; William J Boyle; David J King
Journal:  Proc Natl Acad Sci U S A       Date:  2011-12-07       Impact factor: 11.205

Review 6.  Influenza Virus-Specific Human Antibody Repertoire Studies.

Authors:  James E Crowe
Journal:  J Immunol       Date:  2019-01-15       Impact factor: 5.422

7.  A potent and broad neutralizing antibody recognizes and penetrates the HIV glycan shield.

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Journal:  Science       Date:  2011-10-13       Impact factor: 47.728

8.  Cross-neutralization of influenza A viruses mediated by a single antibody loop.

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Journal:  Nature       Date:  2012-09-16       Impact factor: 49.962

9.  Immunoglobulin gene insertions and deletions in the affinity maturation of HIV-1 broadly reactive neutralizing antibodies.

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Review 10.  Breaking the law: unconventional strategies for antibody diversification.

Authors:  Alexia Kanyavuz; Annaelle Marey-Jarossay; Sébastien Lacroix-Desmazes; Jordan D Dimitrov
Journal:  Nat Rev Immunol       Date:  2019-06       Impact factor: 53.106
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