Nobuhiro Yuki

Background: Autoimmune nodopathy associated with anti-contactin1 (CNTN1) IgG4 antibodies frequently manifests as acute axonal degeneration in addition to detachment of the paranodal myelin loops. The acute destruction of myelinated nerve fibers does not match the function of IgG4, which cannot activate the complement pathway. IgG subclass switching from IgG1 or IgG3 to IgG4 has been observed in some patients with autoimmune diseases associated with IgG4 throughout their disease course. Methods: Serial changes in IgG subclasses, clinico-neurophysiological features, and nerve and renal pathology were reviewed in three patients with anti-CNTN1-associated autoimmune nodopathy and one patient with anti-contactin-associated protein1 (Caspr1) autoimmune nodopathy. Results: All four patients had predominantly IgG4 autoantibodies, whereas they showed evidence of acute axonal degeneration. The IgG1 subclass was present in all patients at their progressing stage but then disappeared at follow-up. Nerve pathology in the patients with anti-CNTN1 and anti-Caspr1 autoimmune nodopathies showed both structural changes in the paranodes and evidence of acute axonal degeneration. Renal biopsy specimens from two patients with membranous glomerulonephritis and anti-CNTN1 autoimmune nodopathy showed deposition of IgG1 and complement on the glomerular basement membrane, as well as IgG4. Conclusions: In patients with autoimmune nodopathies associated with anti-CNTN1 and anti-Caspr1 IgG4 antibodies, IgG1 subclass autoantibodies were present at their acute exacerbations and might have contributed to the axonal degeneration and glomerular injury. IgG1 disappeared with the cessation of disease progression, which indicates that the IgG1 subclass is a possible biomarker of disease activity.

Objective: Reports of patients who have autoimmune nodopathies concurrent with nephrotic syndrome are increasing. We investigated whether proteinuria could be a biomarker of autoimmune nodopathies. Methods: Qualitative urinalysis results were retrospectively obtained from 69 patients who were diagnosed with chronic inflammatory demyelinating polyneuropathy (CIDP) at a hospital in Japan. Proteinuria was graded as mild to severe (i.e., mild, 30-99; moderate, 100-299; severe, 300 mg/dL or more) according to the results of the urine dipstick test. Autoantibodies against the paranodal proteins contactin 1 (CNTN1), neurofascin 155 (NF155), and contactin-associated protein 1 (Caspr1) and the nodal protein neurofascin 186 (NF186) were measured, and the predominant IgG subclass was determined by enzyme-linked immunosorbent assay in sera from the 69 patients. Results: Four patients (6%), five patients (7%), and one (1%) patient were positive for anti-CNTN1, anti-NF155, and anti-Caspr1 IgG4 antibodies, respectively. No patients had IgG4 antibodies against NF186. Proteinuria of mild or greater levels was found in three patients with anti-CNTN1 IgG4 and two patients with anti-NF155 IgG4 antibodies. The autoantibody-positive patients more frequently had proteinuria of mild or greater levels than the seronegative patients (p = 0.01). Conclusions: Proteinuria is a possible biomarker of autoimmune nodopathies associated with autoantibodies targeting CNTN1 or NF155. Urinalysis results should be carefully checked for quick differentiation of autoimmune nodopathies from CIDP. Patients who present with nephrotic syndrome should be tested for anti-CNTN1 IgG4 antibodies, and patients who exhibit mild proteinuria should be tested for anti-NF155 IgG4 antibodies.

In acute inflammatory demyelinating polyneuropathy (AIDP), myelin vesiculation mediated by complement activation contributes to nerve injury. Macrophage infiltration of the spinal roots has been demonstrated in AIDP, but its pathological significance remains uncertain. The present study aimed to investigate the role of macrophages in the pathogenic sequence of AIDP. A rabbit model of AIDP was induced by immunization with galactocerebroside. Immunostaining was performed to localize the macrophages and myelin injury. The rabbit developed tetraparesis with electrophysiological and pathological features of peripheral nerve demyelination. Immunostaining demonstrated colocalization of IgG antibodies, complement deposition and myelin injury apart from macrophages. Immunostaining and electron microscopy showed myelin injury preceded macrophage infiltration. There was significant disruption of voltage-gated sodium channel clusters at the nodes of Ranvier in the spinal roots. Macrophages acted may as scavengers to remove myelin debris following complement activation-mediated demyelination in the AIDP rabbit. Lesions at the node of Ranvier contribute to conduction failure and muscle weakness.

Background and purpose: This study aimed to investigate geographical differences in the clinical features of Guillain-Barré syndrome (GBS) between patients from our region in Eastern China and patients from other areas. Methods: A total of 595 patients fulfilling the diagnostic criteria ​for GBS or its variants were included from two large hospitals located in Eastern China. Data collection included demographics, antecedent events, clinical presentation and signs, electrophysiological subtypes, treatment, complications during hospitalization, clinical severity at nadir, and outcome at 12 months, and these data were compared to data from a study conducted in Southern China and the Europe/Americas section of the International GBS Outcome Study. Results: The median (interquartile range) age of patients was 50 (36-61) years, the ratio of men to women was 1.2, and 49% of patients had antecedent events. Patients in our region of Eastern China had pure motor predominant GBS (158/340, 46%) and 30% (103/340) had complications during hospitalization. Patients aged over 60 years had a lower frequency of antecedent infections and single, axonal subtypes, but higher disability scores at entry, nadir, and 12 months. When compared with the Europe/Americas data, our patients had a lower frequency of antecedent infection (46% vs. 63%), cranial nerve involvement (43% vs. 49%), sensory deficits (45% vs. 69%), pain (19% vs. 57%) and mechanical ventilation (11% vs. 17%), but a higher frequency of axonal subtype (35% vs. 6%). There was a higher frequency of patients with antecedent gastroenteritis (16% vs. 8%), mechanical ventilation (11% vs. 8%) and axonal subtypes (35% vs. 19%) in our region in Eastern China than in Southern China. Conclusions: Patients with GBS in Eastern China showed significant clinical heterogeneity and differences when compared to other geographic areas.

Guillain-Barré syndrome, an autoimmune neuropathy characterized by acute limb weakness, is often preceded by Campylobacter jejuni infection. Molecular mimicry exists between the bacterial lipo-oligosaccharide and human ganglioside. Such C. jejuni infection induces production of immunoglobulin G1 (IgG1) autoantibodies against GM1 and causes complement-mediated motor nerve injury. For elucidating the molecular mechanisms linking autoantigen recognition and complement activation, we characterized the dynamic interactions of anti-GM1 IgG autoantibodies on ganglioside-incorporated membranes. Using high-speed atomic force microscopy, we found that the IgG molecules assemble into a hexameric ring structure on the membranes depending on their specific interactions with GM1. Complement component C1q was specifically recruited onto these IgG rings. The ring formation was inhibited by an IgG-binding domain of staphylococcal protein A bound at the cleft between the CH2 and CH3 domains. These data indicate that the IgG assembly is mediated through Fc-Fc interactions, which are promoted under on-membrane conditions due to restricted translational diffusion of IgG molecules. Reduction and alkylation of the hinge disulfide impaired IgG ring formation, presumably because of an increase in conformational entropic penalty. Our findings provide mechanistic insights into the molecular processes involved in Guillain-Barré syndrome and, more generally, into antigen-dependent interplay between antibodies and complement components on membranes.