B Cell Tolerance and BCR Signaling Dysregulation in NF155-Mediated Autoimmune Nodopathies

  1. Bhaskar Roy
  2. Abeer H. Obaid
  3. Zhenjian Wang
  4. Kristof G. Kovacs
  5. Sarah Ohashi
  6. F. Naz Cemre Kalayci
  7. Daniel Joo
  8. Gianvito Masi
  9. Carmina Coppola
  10. Sameeran Das
  11. Amanda L. Hernandez
  12. Lorena Martin-Aguilar
  13. Cinta Lleixà
  14. Richard J. Nowak
  15. Luis Querol
  16. Kevin C. O’Connor
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Abstract

Objective

Autoimmune nodopathies (AINs) are a group of rare, acquired autoimmune neuropathies with distinct clinical features and the presence of circulating autoantibodies - often of the immunoglobulin G4 (IgG4) subclass - targeting proteins at the node of Ranvier. Defects in B cell tolerance checkpoints have been implicated in several autoimmune diseases. Prior work identified defective B cell tolerance—reflected by a high frequency of self-reactive naïve B cells—in patients with MuSK-positive myasthenia gravis (MG), mediated by IgG4 autoantibodies. Here, we investigated whether tolerance defects exist in neurofascin-155-mediated AIN (NF155-AIN), similar to MuSK+ MG. Additionally, we analyzed B and T cell transcriptomics and interactions at the single-cell level to explore the underlying pathomechanism.

Methods

Using a well-established assay, we assessed B cell tolerance fidelity by generating recombinant antibodies from new emigrant (NE) and mature naïve (MN) B cell populations— directly downstream of key tolerance checkpoints—from three NF155-AIN patients, and testing these antibodies for polyreactivity and autoreactivity, thereby determining the frequency of polyreactive and autoreactive B cells. The transcriptome of peripheral blood mononuclear cells (PBMC) was studied, with a special focus on naïve B cells and CD4+ T cells at the single-cell level, along with characterization of cell-cell interactions.

Results

NF155-AIN patients have an elevated frequency of polyreactive B cells in the NE (37.4% compared to 9.7% in healthy controls (HCs), p = 0.03) and MN (31.5% compared to 10.5% in HCs, p = 0.03) compartments with increased B cell clones expressing autoreactive antibodies, consistent with a breach in early tolerance checkpoints. We observed abnormal B cell receptor (BCR) signaling characterized by low CD79B, CSK, BLNK, and BTK expression, which may contribute to a breach in B cell tolerance. We also observed evidence of impaired follicular helper T cells (Tfh) and regulatory T cells (Treg), which may limit the normal development and suppression of autoreactive B cells. Moreover, comparative gene expression analysis of B cells and CD4+ T cells from three patients with chronic inflammatory demyelinating polyneuropathy (CIDP) —a related autoimmune neuropathy— confirmed that these differences are largely specific to NF155-AIN, supporting a distinct pathophysiology in this subset.

Conclusion

These findings demonstrated a breach in early B cell tolerance checkpoints, defective BCR signaling, and disrupted T cell–B cell interactions in NF155-AIN, all of which may contribute to the development of pathogenic autoreactivity. These immunologic abnormalities appear distinct from those seen in CIDP, supporting NF155-AIN as a unique immunopathologic entity.

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  1. Version published to 10.1101/2025.08.10.669569 on bioRxiv