Review

. 2019 May;56(5):3676-3689.

doi: 10.1007/s12035-018-1334-z. Epub 2018 Sep 4.

Cellular Proteostasis in Neurodegeneration

Alberim Kurtishi¹, Benjamin Rosen¹, Ketan S Patil¹, Guido W Alves², Simon G Møller^{3

4}

Affiliations

¹ Department of Biological Sciences, St. John's University, 8000 Utopia Parkway, New York, 11439, USA.
² Norwegian Center for Movement Disorders, Stavanger University Hospital, Stavanger, Norway.
³ Department of Biological Sciences, St. John's University, 8000 Utopia Parkway, New York, 11439, USA. mollers@stjohns.edu.
⁴ Norwegian Center for Movement Disorders, Stavanger University Hospital, Stavanger, Norway. mollers@stjohns.edu.

PMID: 30182337
DOI: 10.1007/s12035-018-1334-z

Review

Cellular Proteostasis in Neurodegeneration

Alberim Kurtishi et al. Mol Neurobiol. 2019 May.

. 2019 May;56(5):3676-3689.

doi: 10.1007/s12035-018-1334-z. Epub 2018 Sep 4.

Authors

Alberim Kurtishi¹, Benjamin Rosen¹, Ketan S Patil¹, Guido W Alves², Simon G Møller^{3

4}

Affiliations

¹ Department of Biological Sciences, St. John's University, 8000 Utopia Parkway, New York, 11439, USA.
² Norwegian Center for Movement Disorders, Stavanger University Hospital, Stavanger, Norway.
³ Department of Biological Sciences, St. John's University, 8000 Utopia Parkway, New York, 11439, USA. mollers@stjohns.edu.
⁴ Norwegian Center for Movement Disorders, Stavanger University Hospital, Stavanger, Norway. mollers@stjohns.edu.

PMID: 30182337
DOI: 10.1007/s12035-018-1334-z

Abstract

The term proteostasis reflects the fine-tuned balance of cellular protein levels, mediated through a vast network of biochemical pathways. This requires the regulated control of protein folding, post-translational modification, and protein degradation. Due to the complex interactions and intersection of proteostasis pathways, exposure to stress conditions may lead to a disruption of the entire network. Incorrect protein folding and/or modifications during protein synthesis results in inactive or toxic proteins, which may overload degradation mechanisms. Further, a disruption of autophagy and the endoplasmic reticulum degradation pathway may result in additional cellular stress which could ultimately lead to cell death. Neurodegenerative diseases such as Parkinson's disease, Alzheimer's disease, Huntington's disease, and Amyotrophic Lateral Sclerosis all share common risk factors such as oxidative stress, aging, environmental stress, and protein dysfunction; all of which alter cellular proteostasis. The differing pathologies observed in neurodegenerative diseases are determined by factors such as location-specific neuronal death, source of protein dysfunction, and the cell's ability to counter proteotoxicity. In this review, we discuss how the disruption in cellular proteostasis contributes to the onset and progression of neurodegenerative diseases.

Keywords: Aggregation; Apoptosis; Autophagy; Chaperone; ER; Lewy bodies; Neurodegeneration; Proteostasis; Proteotoxicity; ROS; Ubiquitin.

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Cellular Proteostasis in Neurodegeneration

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