Adaptive preconditioning in neurological diseases – therapeutic insights from proteostatic perturbations

B. Mollereau, N. M. Rzechorzek, B. D. Roussel, M. Sedru, D. M. Van den Brink, B. Bailly-Maitre, F. Palladino, D. B. Medinas, P. M. Domingos, S. Hunot, S. Chandran, S. Birman, T. Baron, D. Vivien, C. B. Duarte, H. D. Ryoo, H. Steller, F. Urano, E. Chevet, G. KroemerA. Ciechanover, E. J. Calabrese, R. J. Kaufman, C. Hetz

    Résultats de recherche: Contribution à un journalArticle 'review'Revue par des pairs

    41 Citations (Scopus)

    Résumé

    In neurological disorders, both acute and chronic neural stress can disrupt cellular proteostasis, resulting in the generation of pathological protein. However in most cases, neurons adapt to these proteostatic perturbations by activating a range of cellular protective and repair responses, thus maintaining cell function. These interconnected adaptive mechanisms comprise a ‘proteostasis network’ and include the unfolded protein response, the ubiquitin proteasome system and autophagy. Interestingly, several recent studies have shown that these adaptive responses can be stimulated by preconditioning treatments, which confer resistance to a subsequent toxic challenge – the phenomenon known as hormesis. In this review we discuss the impact of adaptive stress responses stimulated in diverse human neuropathologies including Parkinson׳s disease, Wolfram syndrome, brain ischemia, and brain cancer. Further, we examine how these responses and the molecular pathways they recruit might be exploited for therapeutic gain. This article is part of a Special Issue entitled SI:ER stress.

    langue originaleAnglais
    Pages (de - à)603-616
    Nombre de pages14
    journalBrain Research
    Volume1648
    Les DOIs
    étatPublié - 1 oct. 2016

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