Current and future applications of induced pluripotent stem cell-based models to study pathological proteins in neurodegenerative disorders

Neurodegenerative disorders emerge from the failure of intricate cellular mechanisms, which ultimately lead to the loss of vulnerable neuronal populations. Research conducted across several laboratories has now provided compelling evidence that pathogenic proteins can also contribute to non-cell aut...

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Veröffentlicht in:	Molecular psychiatry 2021-07, Vol.26 (7), p.2685-2706
Hauptverfasser:	de Rus Jacquet, Aurélie, Denis, Hélèna L., Cicchetti, Francesca, Alpaugh, Melanie
Format:	Artikel
Sprache:	eng
Schlagworte:	13/100 13/106 13/62 631/378 631/532 Alzheimer's disease Amyotrophic lateral sclerosis Behavioral Sciences Biological Psychology Cell culture Degeneration Development and progression Health aspects Humans Huntington Disease Induced Pluripotent Stem Cells Inhibitory postsynaptic potentials Medical research Medicine Medicine & Public Health Medicine, Experimental Membrane proteins Nervous system Neurodegenerative Diseases Neurons Neurosciences Parkinson's disease Pathology Pharmacotherapy Pluripotency Prion diseases Prion protein Prions Protein-protein interactions Psychiatry Review Review Article Stem cells Toxicity
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creator	de Rus Jacquet, Aurélie Denis, Hélèna L. Cicchetti, Francesca Alpaugh, Melanie
description	Neurodegenerative disorders emerge from the failure of intricate cellular mechanisms, which ultimately lead to the loss of vulnerable neuronal populations. Research conducted across several laboratories has now provided compelling evidence that pathogenic proteins can also contribute to non-cell autonomous toxicity in several neurodegenerative contexts, including Alzheimer’s, Parkinson’s, and Huntington’s diseases as well as Amyotrophic Lateral Sclerosis. Given the nearly ubiquitous nature of abnormal protein accumulation in such disorders, elucidating the mechanisms and routes underlying these processes is essential to the development of effective treatments. To this end, physiologically relevant human in vitro models are critical to understand the processes surrounding uptake, release and nucleation under physiological or pathological conditions. This review explores the use of human-induced pluripotent stem cells (iPSCs) to study prion-like protein propagation in neurodegenerative diseases, discusses advantages and limitations of this model, and presents emerging technologies that, combined with the use of iPSC-based models, will provide powerful model systems to propel fundamental research forward.
doi_str_mv	10.1038/s41380-020-00999-7
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subjects	13/100 13/106 13/62 631/378 631/532 Alzheimer's disease Amyotrophic lateral sclerosis Behavioral Sciences Biological Psychology Cell culture Degeneration Development and progression Health aspects Humans Huntington Disease Induced Pluripotent Stem Cells Inhibitory postsynaptic potentials Medical research Medicine Medicine & Public Health Medicine, Experimental Membrane proteins Nervous system Neurodegenerative Diseases Neurons Neurosciences Parkinson's disease Pathology Pharmacotherapy Pluripotency Prion diseases Prion protein Prions Protein-protein interactions Psychiatry Review Review Article Stem cells Toxicity
title	Current and future applications of induced pluripotent stem cell-based models to study pathological proteins in neurodegenerative disorders
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