Christina M. Caporale

Predictors of response to rituximab in patients with neuropathy and anti–myelin associated glycoprotein immunoglobulin M

Abstract  We evaluated the efficacy and safety of rituximab in an open‐label, uncontrolled study of 13 patients with polyneuropathy associated with antibodies to myelin‐associated glycoprotein (MAG) and correlated the response to therapy with clinical and laboratory features. One year after rituximab therapy, anti‐MAG immunoglobulin M (IgM) titers were significantly reduced. At that time, eight patients (62%) had improved in both the inflammatory neuropathy cause and treatment (INCAT) sensory sumscore and the Medical Research Council sumscore for muscle strength and seven of them also in the INCAT disability score. The improvement in the mean INCAT sensory sumscore was significant at 12 months and correlated with lower anti‐MAG antibody at entry and at follow‐up. This study suggests that rituximab may be efficacious in patients with anti–MAG associated neuropathy and particularly on sensory impairment and in those with moderately elevated antibody titers. These findings suggest that antibody reduction below a critical level may be necessary to achieve clinical improvement.

Susceptibility to Guillain-Barré syndrome is associated to polymorphisms of CD1 genes.

Guillain-Barré syndrome (GBS) is the prototype of a postinfectious autoimmune neuropathy. Molecular mimicry between glycolipid antigens expressed by an infective antigen such as Campylobacter jejuni and the human peripheral nerve has been hypothesized to be the causative mechanism of GBS. However, only 1/1000 of C. jejuni enteritis develops GBS. This emphasizes the importance of host-related factors in the development of the disease. HLA studies in GBS failed to show an association or gave conflicting results but MHC class I and II process and present peptides to T lymphocytes making unlikely that the HLA system plays a role in GBS with autoantibodies against self-gangliosides. CD1 molecules are MCH-like glycoproteins specialized in capturing and presenting a variety of glycolipid to antigen-specific T cells. There are five closely linked CD1 genes in humans located in chromosome 1 (named CD1A, B, C, D, and E) all showing limited polymorphism in exon 2 which codifies for the alpha1 domain of CD1 molecules. The nucleotide substitutions in CD1B and CD1C are rare and reported to be silent. In 100 controls and 65 GBS patients (21 with a recent C. jejuni infection and 35 with anti-glycolipid antibodies) we used direct sequencing by polymerase chain reaction to genotype exon 2 of CD1A, CD1D and CD1E genes. CD1D is monomorphic in both controls and patients whereas CD1A and CD1E are biallelic in exon 2. Subjects with CD1E*01/01 genotype are 2.5 times more likely to develop GBS, whereas subjects with CD1A*01/02 or CD1E*01/02 have a reduced relative risk by 3.6 and 2.3 times respectively. The combination of CD1A*01/02 and CD1E*01/02 reduces by 5 times the risk of developing GBS. Although a correlation between CD1E*01/01 genotype and recent C. jejuni infection or presence of antiganglioside antibodies was not found the overall findings indicate that susceptibility to develop GBS is associated with polymorphisms of CD1E and CD1A genes.

Acute sensory ataxic neuropathy with antibodies to GD1b and GQ1b gangliosides and prompt recovery

Three patients developed acute pure sensory ataxic neuropathy. Two of the three patients had a recent Campylobacter jejuni infection. Patient 1 had monospecific IgG anti‐GD1b. Patients 2 and 3 had cross‐reactive IgG anti‐GQ1b and anti‐GD1b and patient 2 also had IgG anti‐GT1a. Motor nerve conduction studies were completely normal. Sensory conductions showed reduced amplitude or absent sensory nerve action potentials with normal or slightly slowed conduction velocities. In patient 2, serial electrophysiological studies showed reappearance and improvement of sensory nerve potential amplitudes in 4 weeks. All patients recovered completely in 2 months and sensory potential amplitudes normalized in 3–5 months. Our findings: (1) confirm the existence of a pure acute sensory ataxic neuropathy with cross‐reactive IgG anti‐GQ1b and anti‐GD1b as a variant of Guillain–Barré syndrome; (2) expand the clinical presentation of Guillain–Barré syndrome after C. jejuni infection and suggest that molecular mimicry is at the basis of acute sensory ataxic neuropathy; and (3) indicate that, in acute sensory ataxic neuropathy with prompt recovery, the site of the lesion is not in the primary sensory neurons and the pathophysiological mechanism may be functional in nature. Muscle Nerve, 2007

Polymorphisms of CD1 genes in chronic dysimmune neuropathies

CD1 are MCH-like glycoproteins specialized in capturing and presenting glycolipid to T cells. Expression of CD1 molecules has been observed on endoneurial machrophages in patients with chronic inflammatory demyelinating polyneuropathy (CIDP) and vasculitis and polymorphisms of CID1A and CD1E genes have been associated with susceptibility to develop Guillain-Barré syndrome. In 46 patients with CIDP, in 13 patients with multifocal motor neuropathy and in 132 controls we genotyped exon 2 of CD1A and CD1E genes. We found no association between chronic dysimmune neuropathies, with or without anti-ganglioside antibodies, and polymorphisms of CD1A and CD1E genes.

Experimental axonopathy induced by immunization with Campylobacter jejuni lipopolysaccharide from a patient with Guillain-Barré syndrome

New Zealand white rabbits were immunized with a lipopolysaccharide (LPS) extracted from a Campylobacter jejuni HS:19 strain isolated from a GBS patient expressing GM1 and GD1a-like epitopes, Freunds adjuvant (group I) and Freunds adjuvant plus keyhole lympet hemocyanin (KLH) (group II). Both groups showed high titers of anti-LPS and anti-GM1 and lower titers of anti-GD1b and anti-GD1a antibodies. Weakness and axonal degeneration in sciatic nerves was detected in 1/11 of group I and 6/7 of group II. This model replicates, at least in part, the pathogenetic process hypothesized in the human axonal GBS with antiganglioside antibodies post C. jejuni infection and indicates that KLH plays an additional role in neuropathy induction.

Susceptibility to chronic inflammatory demyelinating polyradiculoneuropathy is associated to polymorphic GA repeat in the SH2D2A gene

The SH2D2A gene encodes a T-cell-specific adapter protein involved in the negative control of T-cell activation. The genotype GA13-16 homozygote of the SH2D2A gene promoter has been associated with the susceptibility to develop multiple sclerosis. Chronic inflammatory demyelinating polyradiculoneuropathy (CIDP) is an immune-mediated neuropathy sharing several pathogenetic mechanisms with multiple sclerosis. We genotyped the SH2D2A promoter region in 105 controls and 48 patients with CIDP. We found a significant association between CIDP and the genotype GA13-16 homozygote (OR 3.167; p 0.013). We hypothesize that this genotype is associated with the susceptibility to develop CIDP and may be implicated in the persistence of the disease.

Inter-nerves and intra-nerve conduction heterogeneity in CMTX with Arg(15)Gln mutation

OBJECTIVE In X-linked Charcot-Marie-Tooth disease (CMTX), electrophysiological and histopathological studies have suggested either a demyelinating or an axonal polyneuropathy. We report a CMTX family with a striking heterogeneity of nerve conductions between and within nerves. METHODS Two men and one woman have been studied by conduction velocities, sural nerve biopsy with morphometry (one man) and DNA analysis. RESULTS In both men motor conduction velocities were slowed in the demyelinating range, conduction velocity differences among nerves in the same subject varied from 13 to 24 m/s, and distal median compound muscle action potential (CMAP) amplitudes were 3-5 times reduced compared to ulnar CMAPs. Abnormal area reduction or excessive temporal dispersion of proximal CMAP was present in at least two nerves in all patients. Sural nerve biopsy showed reduction of large myelinated fibres, cluster formations, occasional onion bulbs. Teased fibres study revealed short internodes for fibre diameter, enlarged Ranvier nodes but no evidence of segmental demyelination and remyelination. DNA analysis showed an Arg(15)Gln mutation in connexin32 gene in all patients. CONCLUSIONS In this family conduction slowing and segmental conduction abnormalities, in absence of morphological evidence of de-remyelination, may be related to short internodes, widened Ranvier nodes and the specific effect of the mutation. The occurrence in some CMTX patients of a non uniform involvement between and within nerves, as in acquired demyelinating neuropathies, should be kept in mind to avoid misdiagnoses.

Lewis–Sumner syndrome in hepatitis C virus infection: A possible pathogenetic association with therapeutic problems

A patient with chronic hepatitis from hepatitis C virus (HCV) infection developed Lewis–Sumner syndrome (LSS). The neuropathy worsened after intravenous immunoglobulins, remitted after intravenous methylprednisolone, relapsed during interferon‐α, but responded again to steroids continued for 68 weeks with clinical remission and without worsening of hepatitis. We are not aware of other reports of HCV infection and LSS. This association may be coincidental or related to a virus‐triggered immune‐mediated process. Although the coexistence of a dysimmune neuropathy with hepatitis makes problematic the choice of treatment, we emphasize that the patients condition during treatment with steroids and the 46 following weeks without therapy has been excellent. Muscle Nerve, 2006

Antibodies to ganglioside complexes in Guillain-Barré syndrome: clinical correlates, fine specificity and complement activation.

In the Schwann cells and neuronal plasma membranes the gangliosides are organized in clusters forming complexes of gangliosides in the microdomains termed lipid rafts. We investigated frequency, clinical correlates, fine specificity and pro-inflammatory properties of antibodies to ganglioside complexes (GSCs) in a Guillain Barré syndrome (GBS) population. In 63 patients with different GBS variants we performed an ELISA for antibodies to Campylobacter Jejuni (C. jejuni), gangliosides and GSCs. We studied the fine specificity of antibodies to GSCs by immunoabsorption study and performed a complement activation assay. Twenty-seven percent of patients had antibodies to GSCs and 71% had antibodies either to single gangliosides or to GSCs. Patients with antibodies to GSCs had more frequent involvement of cranial nerves but did not present more frequent antecedent respiratory, gastrointestinal or C. jejuni infection, did not have a preferential demyelinating or primary axonal GBS variant and did not develop greater disability at six months. The absorption study showed in 2 sera that antibodies to the complex GD1a/GD1b did not react with the gangliosides forming the complex or other single gangliosides, suggesting that antibodies to GSCs are targeted to new conformational glycoepitopes different from the ones displayed by the single gangliosides. Antibody anti-GSCs activated the complement more frequently than antibodies to single gangliosides. Complement activation indicates that antibodies to GSCs have high avidity, pro-inflammatory properties and may exert a pathogenic role in GBS.

Polymorphism of CD1 and SH2D2A genes in inflammatory neuropathies

In the quest for susceptibility factors of inflammatory neuropathies, many genes implicated in the pathogenesis of autoimmune diseases have been investigated with negative or conflicting results. We studied, with a gene candidate approach, the CD1 system specialized in capturing and presenting glycolipids to antigen‐specific T cells, and the SH2D2A gene encoding for a T‐cell‐specific adapter protein implicated in control of early T‐cell activation. In Guillain–Barré syndrome, an initially positive association study with polymorphism of CD1A and CD1E genes was not confirmed. In chronic inflammatory demyelinating polyneuropathy, we did not find an association with CD1 genes, but we found an association with a homozygous genotype for a low repeat number of tandem GA in the SH2D2A gene. This genotype could result in defective control and elimination of autoreactive T cells. All the studies were performed on relatively small size populations. Confirmation in larger sized studies is required both for CD1 and SH2D2A genes. Considering the relative rarity of patients with inflammatory neuropathies, this can only be accomplished by international collaboration.