ganglioside--gd1b and Polyneuropathies

Serum antibodies to different gangliosides have been identified in some Guillain-Barré (GBS) subtypes and variants. In the January issue of Experimental Neurology Susuki and colleagues (2012) showed that in experimental neuropathies associated with antibodies to GM1, GD1a and GD1b the common mechanism is a complement mediated dysfunction and disruption of the nodes of Ranvier which causes a pathophysiological continuum from early reversible conduction failure to axonal degeneration. These observations, correlated and integrated with electrophysiological and pathological findings in humans indicate that the GBS subtypes acute motor conduction block neuropathy, acute motor axonal neuropathy, acute motor and sensory neuropathy and acute sensory neuropathy and possibly also a chronic disorder as multifocal motor neuropathy represent a spectrum of the same immunopathologic process. Being the nodal axolemma and the paranode the focus of the nerve injury, these immune mediated neuropathies could be more properly classified as nodo-paranodopathies.

Topics: Animals; Autoantibodies; Gangliosides; Guillain-Barre Syndrome; Humans; Polyneuropathies; Sphingolipid Activator Proteins

Parvovirus B19 (PB19) is a common, widespread, small, single-stranded DNA virus which has been linked with a broad spectrum of clinical illnesses, including a variety of neurological complications such as encephalitis, meningitis, myelitis, stroke, cerebellar ataxia, and neuropathy. The authors describe a case of PB19 infection associated with hemolytic anemia and cranial polyneuropathy involving the second and third cranial nerves in a 23-year-old immunocompetent woman. The diagnosis of acute PB19 infection was established with detection of positive DNA and anti-PB19 IgM antibodies in blood samples. Antiganglioside antibody studies were performed and serum anti-GD1b IgG was strongly positive. Further investigation was normal or negative, excluding other infectious or autoimmune disorders. The patient was initially treated with a 5-day course of intravenous immunoglobulin (IGIV). Because of incomplete neurological recovery, methylprednisolone was also administered 7 days after IGIV therapy initiation. Complete resolution of clinical symptoms was observed 3 months after disease onset at follow-up visit, despite the persistence of PB19 DNA and anti-PB19 IgM antibodies in serum 5 months after the initial presentation. Our report provides evidence that PB19 could affect both the central and peripheral nervous system, possibly by triggering an autoimmune mechanism that leads to autoantibody production.

Topics: Anemia, Hemolytic; Autoantibodies; Autoantigens; Erythema Infectiosum; Female; Gangliosides; Humans; Oculomotor Nerve Diseases; Optic Nerve Diseases; Polyneuropathies; Young Adult

A 60-year-old man presented with acute onset of left hemiparesis and left hypoglossal nerve palsy with ipsilateral tongue swelling. He then progressed to tetraparesis in a few days. Cerebrospinal fluid showed cell protein dissociation. A nerve conduction study showed motor axonal neuropathy with sensory sparing. A subsequent blood test revealed anti-GD1b IgG antibody positivity. He was diagnosed to have acute motor axonal neuropathy (AMAN) and treated with a course of intravenous immunoglobulin with slow improvement. This is probably the first AMAN with asymmetrical presentation mimicking stroke reported in the literature in detail. The anti-GD1b IgG antibody is also not commonly associated with AMAN.

Topics: Autoantibodies; Diagnosis, Differential; Disease Progression; Gangliosides; Guillain-Barre Syndrome; Humans; Hypoglossal Nerve Diseases; Immunoglobulins, Intravenous; Immunologic Factors; Male; Middle Aged; Motor Neurons; Neural Conduction; Polyneuropathies; Quadriplegia; Stroke

Autoantibodies against gangliosides GM1 or GD1a are associated with acute motor axonal neuropathy (AMAN) and acute motor-sensory axonal neuropathy (AMSAN), whereas antibodies to GD1b ganglioside are detected in acute sensory ataxic neuropathy (ASAN). These neuropathies have been proposed to be closely related and comprise a continuous spectrum, although the underlying mechanisms, especially for sensory nerve involvement, are still unclear. Antibodies to GM1 and GD1a have been proposed to disrupt the nodes of Ranvier in motor nerves via complement pathway. We hypothesized that the disruption of nodes of Ranvier is a common mechanism whereby various anti-ganglioside antibodies found in these neuropathies lead to nervous system dysfunction. Here, we show that the IgG monoclonal anti-GD1a/GT1b antibody injected into rat sciatic nerves caused deposition of IgG and complement products on the nodal axolemma and disrupted clusters of nodal and paranodal molecules predominantly in motor nerves, and induced early reversible motor nerve conduction block. Injection of IgG monoclonal anti-GD1b antibody induced nodal disruption predominantly in sensory nerves. In an ASAN rabbit model associated with IgG anti-GD1b antibodies, complement-mediated nodal disruption was observed predominantly in sensory nerves. In an AMAN rabbit model associated with IgG anti-GM1 antibodies, complement attack of nodes was found primarily in motor nerves, but occasionally in sensory nerves as well. Periaxonal macrophages and axonal degeneration were observed in dorsal roots from ASAN rabbits and AMAN rabbits. Thus, nodal disruption may be a common mechanism in immune-mediated neuropathies associated with autoantibodies to gangliosides GM1, GD1a, or GD1b, providing an explanation for the continuous spectrum of AMAN, AMSAN, and ASAN.

Topics: Acute Disease; Animals; Antibodies; Choline O-Acetyltransferase; Complement C3; Disease Models, Animal; Ganglia, Spinal; Gangliosides; Gangliosidosis, GM1; Injections, Subcutaneous; Microscopy, Electron, Transmission; Neural Conduction; Polyneuropathies; Rabbits; Ranvier's Nodes; Rats; Rats, Sprague-Dawley; Sciatic Nerve; Spectrin; Spinal Cord; Statistics, Nonparametric; Time Factors

The anti-GD1b antibody is known to bind to the cerebellar granular layer or spinocerebellar Ia fibers. A few cases of anti-GD1b positive acute inflammatory demyelinating polyneuropathy with prominent cerebellar ataxia were reported. Recently, we encountered a middle-aged woman with Guillain Barré syndrome (GBS) with severe cerebellar ataxia and relatively mild motor weakness. Anti-GD1b Ig G antibody and anti-GM1 Ig G antibody titers were markedly elevated in her serum. She was diagnosed with acute motor axonal neuropathy (AMAN) with prominent cerebellar ataxia based on the results of the serial nerve conduction study suggesting axonal neuropathy. This case presents the clinico-pathogenic role of autoantibodies to the GD1b and the GM1 in acute inflammatory neuropathy.

Topics: Autoantibodies; Axons; Cerebellar Ataxia; Female; G(M1) Ganglioside; Gangliosides; Humans; Immunoglobulins, Intravenous; Middle Aged; Polyneuropathies

Peripheral neuropathy associated with IgM monoclonal gammopathy of unknown significance is a common disorder, while the association of paraproteinaemic neuropathies with haematological malignancies is far less frequent. We report a 76-year-old patient with a subacute and rapidly progressive sensorimotor demyelinating polyneuropathy causing sensory ataxia, painful paraesthesias and marked motor and sensory deficit in four limbs. Monoclonal gammopathy of IgM type associated with a rectal low-grade B-cell non-Hodgkin lymphoma was detected. Research for anti-MAG and antiganglioside autoantibodies including anti-GM1 and anti-GQ1b evidenced a high titre of IgM antibodies against the disialosyl group of GD1b. This is the first report on a paraproteinaemic polyneuropathy with IgM autoantibodies against glycolipid GD1b associated with B-cell lymphoma. The IgM type of these autoantibodies suggests that they represent all or part of the paraprotein produced by lymphoma cells.

Topics: Aged; Demyelinating Diseases; Female; Gangliosides; Humans; Immunoglobulin M; Lymphoma, B-Cell; Polyneuropathies

Antiganglioside serum antibodies from a patient treated with gangliosides were examined for cross-reactivity with lipopolysaccharides (LPSs) of Campylobacter jejuni strains associated with Guillain-Barré syndrome (GBS). The patient had no preceding infection with C. jejuni and developed chronic progressive motor polyneuropathy following parenteral ganglioside treatment. Serum IgG antibodies recognised GM1 and GD1b gangliosides as well as asialo-GM1, and cross-reactivity was observed with LPSs from C. jejuni O:2, O:4, O:19 and O:41. The results give a clear indication that gangliosides and LPSs from C. jejuni serotypes associated with GBS share common epitopes.

Topics: Adult; Antibodies; Campylobacter jejuni; Cross Reactions; Female; G(M1) Ganglioside; Gangliosides; Guillain-Barre Syndrome; Humans; Immunoglobulin G; Lipopolysaccharides; Polyneuropathies

Topics: Adult; Antibodies, Monoclonal; Antibody Specificity; Ataxia; Autoantibodies; Female; Gangliosides; Humans; Immunoglobulin G; Neurons, Afferent; Polyneuropathies

Antibodies to gangliosides were detected in sera from three of 19 patients with chronic inflammatory polyneuropathy (CIP) by a thin-layer chromatogram overlay technique. All three of the patients fell into a clinical subset of the group that had multifocal motor neuropathy, and in all three patients the antibodies reacted with GM1 ganglioside. However, the fine specificities of the antibodies differed as demonstrated by cross-reactivity with different gangliosides in each of the three patients. The antibodies in patient 1 reacted with GM1, GD1b, and asialo-GM1 suggesting that the terminal Gal(beta 1-3)GalNAc moiety that is common to these three glycolipids is an important part of the epitope(s). This was confirmed by showing reactivity of the antibodies with Gal(beta 1-3)GalNAc conjugated to bovine serum albumin. Patient 2 had antibodies that did not react with GD1b, but cross-reacted with GM2 ganglioside suggesting that the epitope(s) involved the inner portion of the oligosaccharide moiety that is shared between GM1 and GM2. Patient 3 had antibodies that reacted with GM1 and asialo-GM1, but they did not cross-react with either GD1b or GM2. These results provide further evidence for a relationship between motor nerve syndromes and anti-GM1 antibodies and also suggest that GM1 could be a principal target antigen since other reactive gangliosides differed among the patients. However, the possible pathogenic effects of anti-GM1 antibodies on motor nerves remain to be established.

Topics: Antibodies; Antibody Specificity; Chromatography, Thin Layer; Cross Reactions; Enzyme-Linked Immunosorbent Assay; G(M1) Ganglioside; Gangliosides; Glycosphingolipids; Humans; Nervous System Diseases; Neuromuscular Diseases; Polyneuropathies