Association between cardiac denervation and parkinsonism caused by α‐synuclein gene triplication

Singleton, Amanda; Gwinn‐Hardy, Katrina; Sharabi, Yehonotan; Li, Sheng-Ting; Holmes, Courtney; Dendi, Raghuveer; Singleton, Andrew B.; Crawley, Anthony; Goldstein, David S.

doi:10.1093/brain/awh081

Cited by 126 publications

(72 citation statements)

References 16 publications

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“…Therefore, high protein concentration is predicted to accelerate fibrillation, as is in fact observed in vitro [108,114] and in the PD patient with the α-synuclein gene triplication [83][84][85]. The data suggest that the key partially folded conformation, once formed, oligomerizes rapidly to form fibrils.…”

Section: Partial Folding To An Amyloidogenic Conformation Is Crucial mentioning

confidence: 76%

“…For example, a direct role for α-synuclein in the neurodegenerative processes in PD is demonstrated by genetic evidence and autosomal dominant early-onset PD is associated with three different missense mutations in the α-synuclein gene, corresponding to A30P, E46K, and A53T substitutions in α-synuclein [80][81][82] or with the hyper-expression of the wild type α-synuclein protein due to gene triplication [83][84][85]. Antibodies to α-synuclein detect this protein in LBs and LNs, the hallmark lesions of PD, a substantial portion of fibrillar material in these specific inclusions was shown to be comprise of α-synuclein, and insoluble α-synuclein filaments were recovered from purified LBs [86,87].…”

Section: Molecular Mechanisms Of α-Synuclein Fibrillation the Center mentioning

confidence: 99%

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Amyloidogenesis of Natively Unfolded Proteins

Uversky

2008

CAR

167

151

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Aggregation and subsequent development of protein deposition diseases originate from conformational changes in corresponding amyloidogenic proteins. The accumulated data support the model where protein fibrillogenesis proceeds via the formation of a relatively unfolded amyloidogenic conformation, which shares many structural properties with the pre-molten globule state, a partially folded intermediate first found during the equilibrium and kinetic (un)folding studies of several globular proteins and later described as one of the structural forms of natively unfolded proteins. The flexibility of this structural form is essential for the conformational rearrangements driving the formation of the core cross-beta structure of the amyloid fibril. Obviously, molecular mechanisms describing amyloidogenesis of ordered and natively unfolded proteins are different. For ordered protein to fibrillate, its unique and rigid structure has to be destabilized and partially unfolded. On the other hand, fibrillogenesis of a natively unfolded protein involves the formation of partially folded conformation; i.e., partial folding rather than unfolding. In this review recent findings are surveyed to illustrate some unique features of the natively unfolded proteins amyloidogenesis.

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Section: Partial Folding To An Amyloidogenic Conformation Is Crucial mentioning

confidence: 76%

Section: Molecular Mechanisms Of α-Synuclein Fibrillation the Center mentioning

confidence: 99%

Amyloidogenesis of Natively Unfolded Proteins

Uversky

2008

CAR

167

151

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“…These and other neurodegenerative disorders characterized by α-syn inclusions are collectively known as synucleinopathies. 5 Furthermore, a central role of α-syn in the pathogenesis of PD is supported by strong genetic evidence: [6][7][8][9][10] (1) three missense mutations in α-syn (A30P, A53T, and E46K) are associated with autosomal-dominant inherited forms of PD; (2) duplication and triplication in a region that encompasses the α-syn gene on chromosome 4 are sufficient to cause familial PD; and (3) all familial PD mutations accelerated the aggregation of α-syn in vitro, but not necessarily fibrillation. 7,[11][12][13] Selegiline (Sel; R(−)-deprenyl) (Fig.…”

Section: Introductionmentioning

confidence: 99%

The Anti-Parkinsonian Drug Selegiline Delays the Nucleation Phase of α-Synuclein Aggregation Leading to the Formation of Nontoxic Species

Braga

Follmer

Palhano

et al. 2011

Journal of Molecular Biology

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Parkinson's disease (PD) is a movement disorder characterized by the loss of dopaminergic neurons in the substantia nigra and the formation of intraneuronal inclusions called Lewy bodies, which are composed mainly of α-synuclein (α-syn). Selegiline (Sel) is a noncompetitive monoamino oxidase B inhibitor that has neuroprotective effects and has been administered to PD patients as monotherapy or in combination with L-dopa. Besides its known effect of increasing the level of dopamine (DA) by monoamino oxidase B inhibition, Sel induces other effects that contribute to its action against PD. We evaluated the effects of Sel on the in vitro aggregation of A30P and wild-type α-syn. Sel delays fibril formation by extending the lag phase of aggregation. In the presence of Sel, electron microscopy reveals amorphous heterogeneous aggregates, including large annular species, which are innocuous to a primary culture enriched in dopaminergic neurons, while their age-matched counterparts are toxic. The inhibitory effect displayed by Sel is abolished when seeds (small fibril pieces) are added to the aggregation reaction, reinforcing the hypothesis that Sel interferes with early nuclei formation and, to a lesser extent, with fibril elongation. NMR experiments indicate that Sel does not interact with monomeric α-syn. Interestingly, when added in combination with DA (which favors the formation of toxic protofibrils), Sel overrides the *Corresponding author. E-mail address: foguel@bioqmed.ufrj.br.† C.A.B. and C.F. contributed equally to this work. Present address: C. Follmer, Instituto de Química, Departamento de Físico-Química, Universidade Federal do Rio de Janeiro, Rio de Janeiro, RJ, Brazil.Abbreviations used: PD, Parkinson's disease; a-syn, a-synuclein; Sel, selegiline; DA, dopamine; MAO-B, monoamino oxidase B; MPTP, 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine; ROS, reactive oxygen species; DA, dopamine; WT, wild type; Thio-T, thioflavin T; TTR, transthyretin; EM, electron microscopy; HSQC, heteronuclear single quantum coherence; A30P-F, preformed A30P fibrils; LS, light scattering; DAPI, 4V, 6-diamidino-2-phenylindole; EGCG, epigallocatechin gallate; PBS, phosphate-buffered saline. inhibitory effect of DA and favors fibrillation. Additionally, Sel blocks the formation of smaller toxic aggregates by perturbing DA-dependent fibril disaggregation. These effects might be beneficial for PD patients, since the sequestration of protofibrils into fibrils or the inhibition of fibril dissociation could alleviate the toxic effects of protofibrils on dopaminergic neurons. In nondopaminergic neurons, Sel might slow the fibrillation, giving rise to the formation of large nontoxic aggregates.

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“…The major component in these inclusions is α-synuclein (αSyn), which is a 140 amino acid protein of unknown function, usually abundant in presynaptic terminals of nerve cells [2]. Missense mutations [3][4][5] and overexpression due to gene duplication or triplication [6][7][8] of this protein are known to cause autosomal dominant early-onset PD. αSyn is thus involved with the pathogenesis of PD.…”

Section: Introductionmentioning

confidence: 99%

Dynamic Aspects of Amyloid Fibrils of α-Synuclein Related to the Pathogenesis of Parkinson’s Disease

Fujiwara¹

2017

J Alzheimers Dis Parkinsonism

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Association between cardiac denervation and parkinsonism caused by α‐synuclein gene triplication

Cited by 126 publications

References 16 publications

Amyloidogenesis of Natively Unfolded Proteins

Amyloidogenesis of Natively Unfolded Proteins

The Anti-Parkinsonian Drug Selegiline Delays the Nucleation Phase of α-Synuclein Aggregation Leading to the Formation of Nontoxic Species

Dynamic Aspects of Amyloid Fibrils of α-Synuclein Related to the Pathogenesis of Parkinson’s Disease

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