Maryam S. Seyedsadr scite author profile

Maryam S. Seyedsadr

2Publications

55Citation Statements Received

21Citation Statements Given

How they've been cited

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118

Affiliations

University of Zurich, Tarbiat Modares University

Publications

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Nogo-A antibodies enhance axonal repair and remyelination in neuro-inflammatory and demyelinating pathology

et al. 2017

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Two hallmarks of chronic multiple sclerosis lesions are the absence of significant spontaneous remyelination and primary as well as secondary neurodegeneration. Both characteristics may be influenced by the presence of inhibitory factors preventing myelin and neuronal repair. We investigated the potential of antibodies against Nogo-A, a well-known inhibitory protein for neuronal growth and plasticity, to enhance neuronal regeneration and remyelination in two animal models of multiple sclerosis. We induced a targeted experimental autoimmune encephalomyelitis (EAE) lesion in the dorsal funiculus of the cervical spinal cord of adult rats resulting in a large drop of skilled forelimb motor functions. We subsequently observed improved recovery of forelimb function after anti-Nogo-A treatment. Anterograde tracing of the corticospinal tract revealed enhanced axonal sprouting and arborisation within the spinal cord gray matter preferentially targeting pre-motor and motor spinal cord laminae on lesion level and above in the anti-Nogo-A-treated animals. An important additional effect of Nogo-A-neutralization was enhanced remyelination observed after lysolecithin-induced demyelination of spinal tracts. Whereas remyelinated fiber numbers in the lesion site were increased several fold, no effect of Nogo-A-inhibition was observed on oligodendrocyte precursor proliferation, migration, or differentiation. Enhancing remyelination and promoting axonal regeneration and plasticity represent important unmet medical needs in multiple sclerosis. Anti-Nogo-A antibodies hold promise as a potential new therapy for multiple sclerosis, in particular during the chronic phase of the disease when neurodegeneration and remyelination failure determine disability evolution. Key pointsSolid pre-clinical data suggests Nogo-A-neutralization as a potential therapeutic approach for neuroinflammatory and demyelinating pathology. Nogo-A-antibodies are now in early clinical development for multiple sclerosis (MS). Their potential to boost axonal regeneration and compensatory fiber growth as well as myelin repair makes them an attractive candidate to treat also progressive MS in which neurodegeneration and chronic demyelination are hallmarks. AbstractMost of the current therapies as well as many of the clinical trials for Multiple Sclerosis (MS) target the inflammatory autoimmune processes, but less than 20% of all clinical trials investigate potential therapies for the chronic progressive disease stage of MS. The latter is responsible for the steadily increasing disability in many patients, and there is an urgent need for novel therapies that protect nervous system tissue and enhance axonal growth and/or remyelination. As outlined in this review, solid pre-clinical data suggest neutralization of the neurite outgrowth inhibitor Nogo-A as a potential new way to achieve both, axonal and myelin repair. Several phase I clinical studies with anti-Nogo-A antibodies have been conducted in different disease paradigms including MS and spinal cord injur...

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Inactivation of sphingosine-1-phosphate receptor 2 (S1PR2) decreases demyelination and enhances remyelination in animal models of multiple sclerosis

Seyedsadr

Weinmann

Amorim

et al. 2019

Neurobiology of Disease

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