Abstract
Autophagy is the mechanism through which cells degrade oxidized membranes-organelles and mis/unfolded proteins, in this latter function cooperating with the ubiquitin-proteasome system (UP system). Although autophagy has been known for a long time, its involvement in the pathogenesis of neurodegenerative diseases has been investigated only recently. The most fascinating data are very recent and show an impressive connection between proteins that are mutated in different forms of familial Parkinsons Disease (PD) and the critical role that these proteins play in the physiology of the Autophagy (ATG) pathway. This evidence is supported by neuropathological data showing at the ultrastructural level, the occurrence of an altered ATG in the dopamine (DA) neurons of the Substantia Nigra of patients affected by PD. Accordingly, by using experimental models of PD the involvement of ATG is documented as well. In particular, administration of the DA neurotoxin methamphetamine produces damage to DA-containing cells which is exacerbated and results in neuronal cell death when the ATG pathway is inhibited, thus confirming ATG as a critical pathway for the survival of DA neurons. In the present manuscript, after describing the general molecular and cellular features of ATG, we give a short overview of the most relevant aspects concerning the involvement of ATG in the pathogenesis of PD. We further propose that the ATG and the UP systems might converge in the formation of a so-called “autophagoproteasome” which might represent an early ultrastructure witnessing the presence of an ongoing degeneration within DA cells.
Keywords: Parkinson's Disease, ATG, alpha-synuclein, dopamine, proteasome, autophagoproteasome, methamphetamine, lysosome
Current Topics in Medicinal Chemistry
Title: The Role of Autophagy on the Survival of Dopamine Neurons
Volume: 9 Issue: 10
Author(s): Ciro Isidoro, Francesca Biagioni, Filippo Sean Giorgi, Federica Fulceri, Antonio Paparelli and Francesco Fornai
Affiliation:
Keywords: Parkinson's Disease, ATG, alpha-synuclein, dopamine, proteasome, autophagoproteasome, methamphetamine, lysosome
Abstract: Autophagy is the mechanism through which cells degrade oxidized membranes-organelles and mis/unfolded proteins, in this latter function cooperating with the ubiquitin-proteasome system (UP system). Although autophagy has been known for a long time, its involvement in the pathogenesis of neurodegenerative diseases has been investigated only recently. The most fascinating data are very recent and show an impressive connection between proteins that are mutated in different forms of familial Parkinsons Disease (PD) and the critical role that these proteins play in the physiology of the Autophagy (ATG) pathway. This evidence is supported by neuropathological data showing at the ultrastructural level, the occurrence of an altered ATG in the dopamine (DA) neurons of the Substantia Nigra of patients affected by PD. Accordingly, by using experimental models of PD the involvement of ATG is documented as well. In particular, administration of the DA neurotoxin methamphetamine produces damage to DA-containing cells which is exacerbated and results in neuronal cell death when the ATG pathway is inhibited, thus confirming ATG as a critical pathway for the survival of DA neurons. In the present manuscript, after describing the general molecular and cellular features of ATG, we give a short overview of the most relevant aspects concerning the involvement of ATG in the pathogenesis of PD. We further propose that the ATG and the UP systems might converge in the formation of a so-called “autophagoproteasome” which might represent an early ultrastructure witnessing the presence of an ongoing degeneration within DA cells.
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Isidoro Ciro, Biagioni Francesca, Giorgi Sean Filippo, Fulceri Federica, Paparelli Antonio and Fornai Francesco, The Role of Autophagy on the Survival of Dopamine Neurons, Current Topics in Medicinal Chemistry 2009; 9 (10) . https://dx.doi.org/10.2174/156802609789378281
DOI https://dx.doi.org/10.2174/156802609789378281 |
Print ISSN 1568-0266 |
Publisher Name Bentham Science Publisher |
Online ISSN 1873-4294 |
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