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Contributor Information

  • Institute Queen Mary University of London

Tool Details

  • Tool name: Anti-RA056/11.76.1 [11.76.1]
  • Alternate names: NET (Neutrophil Extracellular Trap)
  • Clone: 11.76.1
  • Tool type: Antibodies
  • Class: Recombinant
  • Conjugate: Unconjugated
  • Host: Human
  • Application: ELISA ; WB
  • Description: Rheumatoid arthritis (RA) is a joint-destructive inflammatory disorder characterized by breach of self-tolerance and production of anti–cit-peptide/protein Abs (ACPA). In the RA synovium, ectopic germinal centers (GCs) support an autoantigen-driven immune response leading to local ACPA+ B cell differentiation (1, 2). Recently, we reported that autoreactive B cells highly mutated within ectopic GCs frequently target cit-histones (cit-H2A/B) contained in neutrophil extracellular traps (NETs) (3). Somatic hypermutation (SHM) within GCs introduces single-point mutations in the variable heavy (VH) and/or variable light (VL) region of unmutated (germline) BCR, thus regulating Ag-driven B cell affinity maturation (4). Additionally, SHM can introduce N-glycosylation sites in the VH/VL regions, which can influence Ag binding and/or give an advantage during the selection process to autoreactive B cells (5–7). Circulating and synovial fluid ACPA-IgG are extensively N-glycosylated in their Fab domain and this is due to introduction of N-glycosylation sites during SHM. The biological effects mediated by the glycans in the variable domain of ACPA-IgG might modulate either the Ag binding and/or BCR signalling or might influence the binding to lectins thus giving survival signals to autoreactive B cells (5, 7, 8). Therefore, additional studies are necessary to enhance our understanding of ACPA-IgG Fab N-glycans. In particular, a direct demonstration of the relative contribution of SHM in the VH versus VL region and of the importance of Fab N-glycosylation sites for synovial B cell recognition of cit-Ags is missing. Therefore, in this study we characterized the requirement for SHM within the VH and VL regions and of Fab N-linked glycosylation for the immunoreactivity to NETs and cit-H2B in RA-rmAbs derived from CD19+ B cells obtained from ectopic lymphoid structure (ELS)+ RA synovial tissues. In particular, we present three different scenarios whereby 1) SHM in the VH region is sufficient for the binding to NETs/cit-H2B; 2) both VH and VL chain affinity maturation contribute to the immunoreactivity; and 3) the introduction of a single Fab N-glycosylation site account for most of the RA-rmAbs binding to cit-H2B. PMID: 32221039J Immunol. 2020 May 1;204(9):2374-2379. doi: 10.4049/jimmunol.1901457. Epub 2020 Mar 27.
  • Immunogen: TBD
  • Immunogen UniProt ID: TBD
  • Research area: Neurobiology; Drug developement

  • For Research Use Only

Target Details

  • Target: Neutrophil Extracellular Trap Antigen
  • Target background: Rheumatoid arthritis (RA) is a joint-destructive inflammatory disorder characterized by breach of self-tolerance and production of anti–cit-peptide/protein Abs (ACPA). In the RA synovium, ectopic germinal centers (GCs) support an autoantigen-driven immune response leading to local ACPA+ B cell differentiation (1, 2). Recently, we reported that autoreactive B cells highly mutated within ectopic GCs frequently target cit-histones (cit-H2A/B) contained in neutrophil extracellular traps (NETs) (3). Somatic hypermutation (SHM) within GCs introduces single-point mutations in the variable heavy (VH) and/or variable light (VL) region of unmutated (germline) BCR, thus regulating Ag-driven B cell affinity maturation (4). Additionally, SHM can introduce N-glycosylation sites in the VH/VL regions, which can influence Ag binding and/or give an advantage during the selection process to autoreactive B cells (5–7). Circulating and synovial fluid ACPA-IgG are extensively N-glycosylated in their Fab domain and this is due to introduction of N-glycosylation sites during SHM. The biological effects mediated by the glycans in the variable domain of ACPA-IgG might modulate either the Ag binding and/or BCR signalling or might influence the binding to lectins thus giving survival signals to autoreactive B cells (5, 7, 8). Therefore, additional studies are necessary to enhance our understanding of ACPA-IgG Fab N-glycans. In particular, a direct demonstration of the relative contribution of SHM in the VH versus VL region and of the importance of Fab N-glycosylation sites for synovial B cell recognition of cit-Ags is missing. Therefore, in this study we characterized the requirement for SHM within the VH and VL regions and of Fab N-linked glycosylation for the immunoreactivity to NETs and cit-H2B in RA-rmAbs derived from CD19+ B cells obtained from ectopic lymphoid structure (ELS)+ RA synovial tissues. In particular, we present three different scenarios whereby 1) SHM in the VH region is sufficient for the binding to NETs/cit-H2B; 2) both VH and VL chain affinity maturation contribute to the immunoreactivity; and 3) the introduction of a single Fab N-glycosylation site account for most of the RA-rmAbs binding to cit-H2B. PMID: 32221039J Immunol. 2020 May 1;204(9):2374-2379. doi: 10.4049/jimmunol.1901457. Epub 2020 Mar 27.

Application Details

  • Application: ELISA ; WB

Handling

  • Format: Liquid
  • Shipping conditions: Shipping at 4°C

Documentation

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References

  •   Corsiero et al. 2020. J Immunol. 204(9):2374-2379. PMID: 32221039.