Cellular Oligomerization of α-Synuclein Is Determined by the Interaction of Oxidized Catechols with a C-terminal Sequence

Mazzulli, Joseph R.; Armakola, Maria; Dumoulin, Michelle C.; Parastatidis, Ioannis; Ischiropoulos, Harry

doi:10.1074/jbc.m704737200

Cited by 90 publications

(118 citation statements)

References 41 publications

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“…Dopamine-modified α-synuclein not only inhibited its own degradation by the CMA but also impairs the degradation of other proteins suggesting why dopaminergic cells may be particularly sensitive to various forms of stress leading to selective SN neurodegeneration in PD patients [58]. More recent data has suggested that dopamine oxidation products on alpha-synuclein may not be derived by adduct formation but rather via noncovalent interaction of oxidized catechols with the protein which may result in its inappropriate C-terminal cleavage and/or conformational changes that impact on its oligomerization [59,60].…”

Section: α-Synucleinmentioning

confidence: 99%

Oxidative and nitrative protein modifications in Parkinson's disease

Danielson

Andersen

2008

Free Radical Biology and Medicine

184

121

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Parkinson's disease (PD) is a complex neurodegenerative syndrome likely involving contributions from various factors in individuals including genetic susceptibility, exposure to environmental toxins, and the aging process itself. Increased oxidative stress appears to be a common causative aspect involved in the preferential loss of dopaminergic neurons in a region of the brain prominently affected by the disorder, the substantia nigra (SN). Loss of dopaminergic SN neurons is responsible for the classic clinical motor symptoms associated with PD. Several oxidative and nitrative posttranslational modifications (PTMs) have been identified on proteins pertinent to PD that may affect this or other aspects of disease progression. In this review, we discuss several examples of such PTMs to illustrate their potential consequences in terms of initiation or progression of PD neuropathophysiology.

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Section: α-Synucleinmentioning

confidence: 99%

Oxidative and nitrative protein modifications in Parkinson's disease

Danielson

Andersen

2008

Free Radical Biology and Medicine

184

121

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“…Much of this α-synuclein has been posttranslationally modified by sequence truncation at the C-terminus, phosphorylation at Ser129 (120,121), or nitration (122); these modifications have been shown to increase the rate at which oligomers are formed (121,123). Dopamine and related catecholamines have been shown to interact with α-synuclein and stabilize the protofibril stage of aggregation (124,125), providing a possible explanation for the increased susceptibility of dopaminergic neurons. Levels of soluble oligomers of α-synuclein are also affected by fatty acids, being upregulated by polyunsaturated fatty acids (126).…”

Section: A Molecular Explanation Of Parkinson's Disease: the α-Synuclmentioning

confidence: 99%

Protein Aggregation in the Brain: The Molecular Basis for Alzheimer’s and Parkinson’s Diseases

Irvine

El‐Agnaf

Shankar

et al. 2008

Mol Med

469

356

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“…The melanin synthesis enzyme dopachrome tautomerase (Dct) contributes to, but is not required for, melanin synthesis in dermal melanocytes by catalyzing the conversion of L-dopachrome to DHICA (29). In the absence of Dct, there is decreased DHICA formation with concomitant DHI build up, which promotes the accumulation of reactive species (30,31). Furthermore, Dct is important for intracellular calcium regulation; in fact, eumelanin binds calcium with an affinity similar to calmodulin (32).…”

Section: Introductionmentioning

confidence: 99%

Melanocyte-like cells in the heart and pulmonary veins contribute to atrial arrhythmia triggers

Levin¹,

Lü²,

Petrenko³

et al. 2009

J. Clin. Invest.

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Atrial fibrillation is the most common clinical cardiac arrhythmia. It is often initiated by ectopic beats arising from the pulmonary veins and atrium, but the source and mechanism of these beats remains unclear. The melanin synthesis enzyme dopachrome tautomerase (DCT) is involved in intracellular calcium and reactive species regulation in melanocytes. Given that dysregulation of intracellular calcium and reactive species has been described in patients with atrial fibrillation, we investigated the role of DCT in this process. Here, we characterize a unique DCT-expressing cell population within murine and human hearts that populated the pulmonary veins, atria, and atrioventricular canal. Expression profiling demonstrated that this population expressed adrenergic and muscarinic receptors and displayed transcriptional profiles distinct from dermal melanocytes. Adult mice lacking DCT displayed normal cardiac development but an increased susceptibility to atrial arrhythmias. Cultured primary cardiac melanocyte-like cells were excitable, and those lacking DCT displayed prolonged repolarization with early afterdepolarizations. Furthermore, mice with mutations in the tyrosine kinase receptor Kit lacked cardiac melanocyte-like cells and did not develop atrial arrhythmias in the absence of DCT. These data suggest that dysfunction of melanocyte-like cells in the atrium and pulmonary veins may contribute to atrial arrhythmias.

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Cellular Oligomerization of α-Synuclein Is Determined by the Interaction of Oxidized Catechols with a C-terminal Sequence

Cited by 90 publications

References 41 publications

Oxidative and nitrative protein modifications in Parkinson's disease

Oxidative and nitrative protein modifications in Parkinson's disease

Protein Aggregation in the Brain: The Molecular Basis for Alzheimer’s and Parkinson’s Diseases

Melanocyte-like cells in the heart and pulmonary veins contribute to atrial arrhythmia triggers

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