OBJECTIVE: Anti-citrullinated protein antibodies (ACPAs) are a hallmark of seropositive rheumatoid arthritis (RA). Yet, the precise disease-relevant autoantigens that are targeted by ACPAs remains a matter of debate. This study utilized patient-derived monoclonal ACPAs, rather than serum autoantibody analysis, to characterize the multireactivity to different protein modifications and to reveal autoantibody subsets in patients with RA. METHODS: Twelve human monoclonal ACPAs (positive by the second-generation cyclic citrullinated peptide test) were generated from 6 RA patients, and a head-to-head comparison of their reactivities was performed. For profiling, we used a complementary DNA-based protein array (Engine GmbH) and 3 peptide-screening platforms with RA autoantigens (Thermo Fisher Scientific), citrullinated and carbamylated peptides (NimbleGen/Roche), or histone-derived peptides with different posttranslational modifications (JPT Histone Code), covering >207,000 peptides (>7,800 gene products). RESULTS: The fine-specificity profiles of the investigated ACPAs varied, but all of the monoclonal ACPAs displayed multireactivity to a large number of citrullinated peptides/proteins, each characterized by specific binding properties. ACPA subsets could be defined by clone-distinct consensus binding motifs (e.g., Cit-Gly, Gly-Cit, or Arg-Cit-Asp), with the most common ACPA recognition being that of a Gly in the +1 flanking position, but with additional amino acid preferences. For ACPA protein recognition, we observed a preference for citrullinated RNA-binding proteins with high Arg/Gly content. Six of the 12 ACPA clones also bound acetylated lysine (KAc) or homocitrulline peptide motifs, displaying a similar affinity or higher apparent affinity than that for citrullinated peptides. CONCLUSION: ACPAs and anti-modified protein autoantibodies represent overlapping facets of RA autoimmunity and bind to a wide variety of modified proteins, extending well beyond the historically recognized set of RA autoantigens. So far, KAc reactivity has been detected only in the context of anti-carbamylated and anti-citrullinated peptide autoantibody responses, postulating the existence of hierarchies of autoreactivity in RA. Future investigations of ACPA fine specificities and functionality should take into consideration the presence of consensus Cit/Carb/KAc motifs and the multireactivity of these autoantibodies in patients with RA.
OBJECTIVE: Anti-citrullinated protein antibodies (ACPAs) are a hallmark of seropositive rheumatoid arthritis (RA). Yet, the precise disease-relevant autoantigens that are targeted by ACPAs remains a matter of debate. This study utilized patient-derived monoclonal ACPAs, rather than serum autoantibody analysis, to characterize the multireactivity to different protein modifications and to reveal autoantibody subsets in patients with RA. METHODS: Twelve human monoclonal ACPAs (positive by the second-generation cyclic citrullinated peptide test) were generated from 6 RApatients, and a head-to-head comparison of their reactivities was performed. For profiling, we used a complementary DNA-based protein array (Engine GmbH) and 3 peptide-screening platforms with RA autoantigens (Thermo Fisher Scientific), citrullinated and carbamylated peptides (NimbleGen/Roche), or histone-derived peptides with different posttranslational modifications (JPT Histone Code), covering >207,000 peptides (>7,800 gene products). RESULTS: The fine-specificity profiles of the investigated ACPAs varied, but all of the monoclonal ACPAs displayed multireactivity to a large number of citrullinated peptides/proteins, each characterized by specific binding properties. ACPA subsets could be defined by clone-distinct consensus binding motifs (e.g., Cit-Gly, Gly-Cit, or Arg-Cit-Asp), with the most common ACPA recognition being that of a Gly in the +1 flanking position, but with additional amino acid preferences. For ACPA protein recognition, we observed a preference for citrullinated RNA-binding proteins with high Arg/Gly content. Six of the 12 ACPA clones also bound acetylated lysine (KAc) or homocitrulline peptide motifs, displaying a similar affinity or higher apparent affinity than that for citrullinated peptides. CONCLUSION: ACPAs and anti-modified protein autoantibodies represent overlapping facets of RA autoimmunity and bind to a wide variety of modified proteins, extending well beyond the historically recognized set of RA autoantigens. So far, KAc reactivity has been detected only in the context of anti-carbamylated and anti-citrullinated peptide autoantibody responses, postulating the existence of hierarchies of autoreactivity in RA. Future investigations of ACPA fine specificities and functionality should take into consideration the presence of consensus Cit/Carb/KAc motifs and the multireactivity of these autoantibodies in patients with RA.
Authors: Aisha M Mergaert; Zihao Zheng; Michael F Denny; Maya F Amjadi; S Janna Bashar; Michael A Newton; Vivianne Malmström; Caroline Grönwall; Sara S McCoy; Miriam A Shelef Journal: Arthritis Rheumatol Date: 2022-04-10 Impact factor: 15.483
Authors: Raul Castellanos-Moreira; Sebastian C Rodriguez-Garcia; Sonia Cabrera-Villalba; María José Gomara; Georgina Salvador; Virginia Ruiz-Esquide; Julio Ramirez; Jose Inciarte-Mundo; Rosa Morla; Cristina Garcia-Moreno; Andrea Cuervo; Jose A Gómez-Puerta; Juan D Cañete; Isabel Haro; Raimon Sanmarti Journal: Ther Adv Musculoskelet Dis Date: 2020-12-10 Impact factor: 5.346
Authors: Jing Song; Anja Schwenzer; Alicia Wong; Sara Turcinov; Cliff Rims; Lorena Rodriguez Martinez; David Arribas-Layton; Christina Gerstner; Virginia S Muir; Kim S Midwood; Vivianne Malmström; Eddie A James; Jane H Buckner Journal: JCI Insight Date: 2021-03-08
Authors: Fenne Wouters; Marc P Maurits; Laurette van Boheemen; Marloes Verstappen; Kulveer Mankia; Xanthe M E Matthijssen; Annemarie L Dorjée; Paul Emery; Rachel Knevel; Dirkjan van Schaardenburg; René E M Toes; Annette H M van der Helm-van Mil Journal: Ann Rheum Dis Date: 2021-07-20 Impact factor: 19.103
Authors: Caroline Grönwall; Lisa Liljefors; Holger Bang; Aase H Hensvold; Monika Hansson; Linda Mathsson-Alm; Lena Israelsson; Vijay Joshua; Anna Svärd; Ragnhild Stålesen; Philip J Titcombe; Johanna Steen; Luca Piccoli; Natalia Sherina; Cyril Clavel; Elisabet Svenungsson; Iva Gunnarsson; Saedis Saevarsdottir; Alf Kastbom; Guy Serre; Lars Alfredsson; Vivianne Malmström; Johan Rönnelid; Anca I Catrina; Karin Lundberg; Lars Klareskog Journal: Front Immunol Date: 2021-05-20 Impact factor: 7.561