Brent R. Wright scite author profile

Purpose-Human remyelination promoting IgM mAbs target oligodendrocytes (OLs) and function in animal models of multiple sclerosis (MS). However, their mechanism of action is unknown. This study seeks to identify the cellular mechanism of action of a recombinant human IgM on OL survival.Methods-Binding of rHIgM22 to the surface of rat OLs was studied by co-localization with various markers. RHIgM22-mediated effects on apoptotic signaling in OLs, differentiation markers and signaling molecules were detected by Western blotting and immunoprecipitation.Results-RHIgM22 co-localized with integrin β3 but not other integrin β-chains in OLs. Downstream of integrin β3 we identified Src family kinase (SFK) Lyn as a key player of rHIgM22-mediated actions in OLs. Lyn immunoprecipitated in a complex together with integrin αvβ3 and PDGFαR. Lyn expression was 9 fold up-regulated and Lyn activation was 3 fold higher in rHIgM22-treated OL cultures compared to controls. RHIgM22 inhibited apoptotic signaling by greater than 10 fold reduction of caspase-3 and capsase-9 cleavage and reduced by 4 fold expression of differentiation markers MBP and MOG in OLs. SFK inhibitors PP2 and SU6656 inhibited Lyn activity and restored caspase-cleavage in OLs. A human IgM that did not promote remyelination and medium were used as controls.Conclusions-rHIgM22 prevented apoptotic signaling and inhibited OL differentiation by Lyn implying that IgM-mediated remyelination is due to protection of OPC and OLs rather than promotion of OPC differentiation.

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Remyelination Induced by a DNA Aptamer in a Mouse Model of Multiple Sclerosis

Nastasijević

Wright

Smestad

et al. 2012

PLoS ONE

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Multiple sclerosis (MS) is a debilitating inflammatory disease of the central nervous system (CNS) characterized by local destruction of the insulating myelin surrounding neuronal axons. With more than 200 million MS patients worldwide, the absence of treatments that prevent progression or induce repair poses a major challenge. Anti-inflammatory therapies have met with limited success only in preventing relapses. Previous screening of human serum samples revealed natural IgM antibodies that bind oligodendrocytes and promote both cell signaling and remyelination of CNS lesions in an MS model involving chronic infection of susceptible mice by Theiler’s encephalomyelitis virus and in the lysolecithin model of focal demyelination. This intriguing result raises the possibility that molecules with binding specificity for oligodendrocytes or myelin components may promote therapeutic remyelination in MS. Because of the size and complexity of IgM antibodies, it is of interest to identify smaller myelin-specific molecules with the ability to promote remyelination in vivo. Here we show that a 40-nucleotide single-stranded DNA aptamer selected for affinity to murine myelin shows this property. This aptamer binds multiple myelin components in vitro. Peritoneal injection of this aptamer results in distribution to CNS tissues and promotes remyelination of CNS lesions in mice infected by Theiler’s virus. Interestingly, the selected DNA aptamer contains guanosine-rich sequences predicted to induce folding involving guanosine quartet structures. Relative to monoclonal antibodies, DNA aptamers are small, stable, and non-immunogenic, suggesting new possibilities for MS treatment.

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Cellular Mechanisms of Central Nervous System Repair by Natural Autoreactive Monoclonal Antibodies

et al. 2009

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A human IgM signals axon outgrowth: coupling lipid raft to microtubules

Warrington

Wright

et al. 2011

Journal of Neurochemistry

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Mouse and human IgMs support neurite extension from primary cerebellar granule neurons. In this study using primary hippocampal and cortical neurons we demonstrate that a recombinant human IgM, rHIgM12, promotes axon outgrowth by coupling membrane domains (lipid rafts) to microtubules. rHIgM12 binds to the surface of neuron and induces clustering of cholesterol and ganglioside, GM1. After cell binding and membrane fractionation, rHIgM12 segregated into two pools, one associated with lipid raft fractions and the other with the detergent-insoluble cytoskeleton-containing pellet. Membrane-bound rHIgM12 co-localized with microtubules and co-immuno precipitated with β3-tubulin. rHIgM12-membrane interaction also enhanced the tyrosination of α-tubulin indicating a stabilization of new neurites. When presented as a substrate rHIgM12 induced axon outgrowth from primary neurons. We now demonstrate that a recombinant human mAb can induce signals in neurons that regulate membrane lipids and microtubule dynamics required for axon extension. We propose that the pentameric structure of the IgM is critical to crosslink membrane lipids and proteins resulting in signaling cascades.

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Sensory structure of the tentacles of the slug, Arion ater (Pulmonata, Mollusca)

Wright¹

1974

Cell Tissue Res.

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Brent R. Wright

Human remyelination promoting antibody inhibits apoptotic signaling and differentiation through Lyn kinase in primary rat oligodendrocytes

Remyelination Induced by a DNA Aptamer in a Mouse Model of Multiple Sclerosis

Cellular Mechanisms of Central Nervous System Repair by Natural Autoreactive Monoclonal Antibodies

A human IgM signals axon outgrowth: coupling lipid raft to microtubules

Sensory structure of the tentacles of the slug, Arion ater (Pulmonata, Mollusca)

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