Phosphorylation of Ser-129 Is the Dominant Pathological Modification of α-Synuclein in Familial and Sporadic Lewy Body Disease

Anderson, John P.; Walker, Donald E.; Goldstein, Jason; Laat, Rian de; Banducci, Kelly; Caccavello, Russell; Barbour, Robin; Huang, Jiping; Kling, Kristin; Lee, Michael; Diep, Linnea; Keim, Pamela S.; Shen, Xiaofeng; Chataway, Tim; Schlossmacher, Michael G.; Seubert, Peter; Schenk, Dale; Sinha, Sukanto; Gai, Wei; Chilcote, Tamie J.

doi:10.1074/jbc.m600933200

Cited by 1,202 publications

(1,429 citation statements)

References 35 publications

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“…Phosphorylation of αS at S129 is the most abundant posttranslational modification in Lewy bodies (Anderson et al, 2006;Fig. 8.…”

Section: Discussionmentioning

confidence: 99%

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α-Synuclein interacts with the switch region of Rab8a in a Ser129 phosphorylation-dependent manner

Yin¹,

Fonseca²,

Eisbach³

et al. 2014

Neurobiology of Disease

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Alpha-synuclein (αS) misfolding is associated with Parkinson's disease (PD) but little is known about the mechanisms underlying αS toxicity. Increasing evidence suggests that defects in membrane transport play an important role in neuronal dysfunction. Here we demonstrate that the GTPase Rab8a interacts with αS in rodent brain. NMR spectroscopy reveals that the C-terminus of αS binds to the functionally important switch region as well as the C-terminal tail of Rab8a. In line with a direct Rab8a/αS interaction, Rab8a enhanced αS aggregation and reduced αS-induced cellular toxicity. In addition, Rab8 -the Drosophila ortholog of Rab8a -ameliorated αS-oligomer specific locomotor impairment and neuron loss in fruit flies. In support of the pathogenic relevance of the αS-Rab8a interaction, phosphorylation of αS at S129 enhanced binding to Rab8a, increased formation of insoluble αS aggregates and reduced cellular toxicity. Our study provides novel mechanistic insights into the interplay of the GTPase Rab8a and αS cytotoxicity, and underscores the therapeutic potential of targeting this interaction.

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“…Phosphorylation of αS at S129 is the most abundant posttranslational modification in Lewy bodies (Anderson et al, 2006;Fig. 8.…”

Section: Discussionmentioning

confidence: 99%

“…4A) is the most abundant post-translational modification of αS in PD (Anderson et al, 2006;Fujiwara et al, 2002). Titration of pS129-αS to Rab8a(GDP) revealed that, at the same molar ratio, Rab8a caused stronger NMR signal attenuation in pS129-αS than in wild-type αS (Figs.…”

Section: αS Interacts With Rab8a In Rodent Brainmentioning

confidence: 99%

α-Synuclein interacts with the switch region of Rab8a in a Ser129 phosphorylation-dependent manner

Yin¹,

Fonseca²,

Eisbach³

et al. 2014

Neurobiology of Disease

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“…3 They found the protein to have a molecular mass consistent with the presence of an additional acetyl group, 3 and it has been known for several years that AS purified from both normal and pathological brain tissue is N-terminally acetylated. 5 Wang et al purified from E. coli an AS construct that included an additional 10 residue N-terminal fragment 4 which may mimic the physical consequences of N-terminal acetylation. Both manuscripts suggested that the mild, non-denaturing conditions used for purification may also preserve the native tetramer structure.…”

Section: Introductionmentioning

confidence: 99%

N‐terminal acetylation is critical for forming α‐helical oligomer of α‐synuclein

2012

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The aggregation of the protein a-synuclein (AS) is critical to the pathogenesis of Parkinson's disease. Although generally described as an unstructured monomer, recent evidence suggests that the native form of AS may be an a-helical tetramer which resists aggregation. Here, we show that N-terminal acetylation in combination with a mild purification protocol results in an oligomeric form of AS with partial a-helical structure. N-terminal acetylation of AS could have important implications for both the native and pathological structures and functions of AS. Through our demonstration of a recombinant expression system, our results represent an important step toward biochemical and biophysical characterization of this potentially important form of AS.

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“…Phosphorylation at Ser-129 is a specific marker of all ␣-synucleinopathy lesions including PD (16). Alteration of Ser-129 to the negatively charged aspartate to mimicphosphorylationandSer-129phosphorylationbyGprotein-coupled receptor kinase 2 significantly enhanced ␣-syn toxicity in the Drosophila model of Parkinson disease (17).…”

mentioning

confidence: 99%

The phosphorylation state of Ser-129 in human α-synuclein determines neurodegeneration in a rat model of Parkinson disease

Gorbatyuk

Sullivan

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

259

226

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Studies have shown that ␣-synuclein (␣-syn) deposited in Lewy bodies in brain tissue from patients with Parkinson disease (PD) is extensively phosphorylated at Ser-129. We used recombinant Adeno-associated virus (rAAV) to overexpress human wild-type (wt) ␣-syn and two human ␣-syn mutants with site-directed replacement of Ser-129 to alanine (S129A) or to aspartate (S129D) in the nigrostriatal tract of the rat to investigate the effect of Ser-129 phosphorylation state on dopaminergic neuron pathology. Rats were injected with rAAV2/5 vectors in the substantia nigra pars compacta (SNc) on one side of the brain; the other side remained as a nontransduced control. The level of human wt or mutant ␣-syn expressed on the injected side was about four times the endogenous rat ␣-syn. There was a significant reduction of dopaminergic neurons in the SNc and dopamine (DA) and tyrosine hydroxylase (TH) levels in the striatum of all S129A-treated rats as early as 4 wk postinjection. Nigral DA pathology occurred more slowly in the wt-injected animals, but by 26 wk the wt ␣-syn group lost nigral TH neurons equivalent to the mutated S129A group at 8 wk. In stark contrast, we did not observe any pathological changes in S129D-treated animals. Therefore, the nonphosphorylated form of S129 exacerbates ␣-syn-induced nigral pathology, whereas Ser-129 phosphorylation eliminates ␣-syn-induced nigrostriatal degeneration. This suggests possible new therapeutic targets for Parkinson Disease.

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Phosphorylation of Ser-129 Is the Dominant Pathological Modification of α-Synuclein in Familial and Sporadic Lewy Body Disease

Cited by 1,202 publications

References 35 publications

α-Synuclein interacts with the switch region of Rab8a in a Ser129 phosphorylation-dependent manner

α-Synuclein interacts with the switch region of Rab8a in a Ser129 phosphorylation-dependent manner

N‐terminal acetylation is critical for forming α‐helical oligomer of α‐synuclein

The phosphorylation state of Ser-129 in human α-synuclein determines neurodegeneration in a rat model of Parkinson disease

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