Autoantibody-mediated cytotoxicity in paediatric opsoclonus-myoclonus syndrome is dependent on ERK-1/2 phophorylation.

Paediatric opsoclonus-myoclonus syndrome (OMS) is in 50% of the cases associated with a neuroblastoma as a paraneoplastic syndrome and is associated with surface-binding antibodies against cerebellar granular neurons (CGN). To evaluate possible pathogenic effects of these autoantibodies on CGN we examined their influence on the MAPKinase enzymes ERK-1/2 and p38 using flow cytometry and phospho-specific antibodies. OMS IgG but not IgG from neuroblastoma without OMS or healthy controls induced phosphorylation of ERK-1/2 in cerebellar granular neurons (p<0.01). No effect on p38 phosphorylation or on HEK293 control cell line could be detected. IgG-mediated phosphorylation of ERK-1/2 was associated with an increased cytotoxicity of CGN, which could be blocked by ERK-1/2 pathway inhibitor U0126. We here show that IgG-mediated anti-neuronal cytotoxicity in OMS is mediated by ERK-1/2 phosphorylation in CGN.

Role of BAFF in Opsoclonus-Myoclonus syndrome, a bridge between cancer and autoimmunity.

OMS is a rare paraneoplastic disorder that affects adults and children. Pediatric OMS is often associated with NB, a common, solid tumor of childhood, derived from the sympathetic nervous system. The detection of autoantibodies and lymphocytic infiltration in NB patients led to advance an autoimmune hypothesis for the pathogenesis of OMS-related NB. BAFF is a potent modulator of B cell growth and survival upon interaction with its receptors BAFF-R and BCMA. The aim of this study was to investigate mechanism(s) involved in ectopic lymphoid neogenesis in OMS-associated NB. We investigated BAFF, BAFF-R, and BCMA expression in NB tumors associated or not with OMS. Furthermore, we evaluated BAFF expression and secretion in NB cell lines, treated or untreated with differentiating agents. Immunohistochemically, lymphocytes infiltrating NB tumors from patients, with or without OMS, expressed BAFF, BAFF-R, and BCMA, whereas neuroblasts expressed BAFF and BCMA but not BAFF-R. By flow cytometry, BAFF was found to be consistently expressed in NB cell lines. Similarly to the results obtained in tissue lesions, BCMA but not BAFF-R was detected on the surface of all NB cell lines under basal conditions. De novo synthesis of BAFF-R and up-regulation of BCMA were observed in NB cell lines upon treatment with IFN-γ or 13-cis retinoic acid. This study provides new insights in the mechanisms driving the neogenesis of lymphoid follicles and in the functional interactions between tumor and immune cells in OMS-associated NB.

Identification of autoantigens in pediatric opsoclonus-myoclonus syndrome.

Pediatric opsoclonus-myoclonus syndrome (OMS) is a rare disease, including eye movement disturbances, muscle jerks, ataxia and developmental disturbances as the main symptoms. In 50% of patients, OMS is associated with a neuroblastoma as a paraneoplastic neurological syndrome. Since autoantibodies have been detected in some patients and OMS patients respond to immunosuppression, an autoimmune etiology has been suspected in OMS. A variety of autoantibodies have been reported in association with OMS. In paraneoplastic OMS, some patients have anti-Hu antibodies, directed against a group of RNA-binding proteins expressed in neurons and tumor cells. Autoantibodies against alpha-enolase and KH-type splicing regulatory protein could also be demonstrated. However, these autoantibodies are not specific for OMS. By contrast, autoantibodies against surface epitopes of cerebellar granular cells and neuroblastoma cells have been demonstrated exclusively in OMS patients, and these autoantibodies have pathogenic effects on neuroblastoma cells. Taken together, OMS is associated with surface-binding autoantibodies with pathogenic effects, indicating a humoral immune-mediated process as the underlying cause for OMS.

Functional characterisation of autoantibodies from patients with pediatric opsoclonus-myoclonus-syndrome.

Paraneoplastic opsoclonus-myoclonus-syndrome (OMS) both in children and adults is suspected to be the result of an autoimmune response directed against cross-reactive proteins of tumor and neuronal cells. We here characterised the binding and functional activities of anti-neuroblastoma antibodies in IgG fractions from 11 OMS children with and without neuroblastoma. IgG fractions from neuroblastoma without OMS (NB) and healthy children served as controls. Indirect immunofluorescence and Western blot revealed IgG binding to intracellular autoantigens in all OMS patients, but in only one of the controls (p<0.001). Using flow cytometry, we could demonstrate surface binding of IgG fractions in all OMS patients, but only in one of control (p<0.001). Moreover OMS IgG exhibited a significant anti-proliferative and a cytotoxic effect on neuroblastoma cells compared to control IgG (p<0.001 and p<0.01). TUNEL assay revealed increased apoptotic cell death of the neuroblastoma cells after exposure to OMS IgG, but not to NB or control IgG (p<0.01). Preabsorption of membrane binding abandoned the anti-proliferative effect of OMS IgG. These findings indicate that surface-binding autoantibodies are present in OMS patients and these autoantibodies cause inhibition of cell proliferation and induce apoptosis.

Surface-binding autoantibodies to cerebellar neurons in opsoclonus syndrome.

Childhood opsoclonus-myoclonus syndrome can occur with or without associated neuroblastoma. An autoimmune pathogenesis has been discussed for both forms. We show here that the majority of children with opsoclonus-myoclonus syndrome (10/14) have autoantibodies binding to the surface of isolated rat cerebellar granular neurons. In some patients, these antibodies are masked by IgG binding to ubiquitous surface antigens, which could be removed by preincubation with the nonneuronal control cell line HEK 293. A newly introduced competitive binding assay showed that the surface binding is directed against the same autoantigen in different patients. Therefore, we hypothesize that opsoclonus-myoclonus syndrome may be the result of an autoimmune process against a neuronal surface protein.