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From insights to innovations: evaluating preclinical paradigms in demyelinating disease therapeutics.

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Peer-reviewed

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Abstract

Demyelinating disorders such as multiple sclerosis and leukodystrophies are on the rise, posing substantial challenges due to their progressive nature and the current limitations of therapies that effectively restore lost myelin. Over the past decade, advancements in regenerative neuroscience, including cutting-edge stem cell therapies, advanced biomaterials and groundbreaking gene-editing technologies, offer promising avenues for remyelination, immunomodulation and neural repair. Yet, to successfully transition these innovations into clinical therapies, we need robust preclinical models that accurately reflect disease pathology and predict treatment efficacy. This Review offers a thorough overview of the preclinical models utilized in regenerative neurology for demyelinating diseases, highlighting the rapid progress in biomaterial and gene-editing research, which requires meticulous testing and validation in both in vitro and in vivo environments. We begin by explaining the pathophysiology of demyelination, then provide an exhaustive discussion on various preclinical models, including toxin-induced, autoimmune, genetic, viral-induced and large animal models. This is followed by an exploration of emerging regenerative strategies, from cell-based and pharmacological approaches to bioengineered techniques, and we conclude with an analysis of current challenges, translational barriers and future directions in the field. By synthesizing insights from multiple disciplines, this Review strives to engage a diverse audience eager to connect laboratory discoveries with clinical applications in regenerative neuroscience.

Description

Acknowledgements: We acknowledge the current and previous members of the Pluchino and Peruzzotti-Jametti teams who have inspired or indirectly contributed to this work. Moreover, we regret that, due to space constraints, we were unable to cite all relevant studies, including several important contributions that have been thoroughly discussed in previous reviews. This research was in part supported by the Ferblanc Foundation G112716 (S.P.); National MS Society Research Grant RG 1802-30200 and RFA-2203-39318 (L.P.-J. and S.P.); Bascule Charitable Trust RG98181 (S.P.); and the Fondazione Italiana Sclerosi Multipla FIMS 2018/R/14 (S.P. and L.P.-J.), a 2022/R-Single/011 (S.P.); an MRC Clinician Scientist Fellowship (CSF) APP25212 (L.P.J.); an Evelyn Trust Grant Project ref 24/08 Med-24-2313 (L.P.-J.). During the preparation of this work, the authors used ChatGPT to check the grammar. After using this tool/service, the authors reviewed and edited the content as needed and take full responsibility for the content of the publication.

Journal Title

Lab Anim (NY)

Conference Name

Journal ISSN

0093-7355
1548-4475

Volume Title

55

Publisher

Springer Nature

Rights and licensing

Except where otherwised noted, this item's license is described as http://creativecommons.org/licenses/by/4.0/
Sponsorship
Evelyn Trust (24/08 Med-24-2313)
Fondazione Italiana Sclerosi Multipla (Italian Multiple Sclerosis Foundation) (2018/R/14, FIMS 2018/R/14 and 2022/R-Single/011)
National Multiple Sclerosis Society (National MS Society) (1802-30200 and RFA-2203-39318, RG 1802-30200 and RFA-2203-39318)