Philippe Guillaume Coune scite author profile

Background:The oligomeric state of ␣-syn in vivo remains unknown. Results: ␣-syn in the CNS and produced by erythrocytes, mammalian cells, and Escherichia coli exists predominantly as a disordered monomer. Conclusion: Native ␣-syn from various sources behaves as unstructured and monomeric. Significance: Stabilizing monomeric ␣-syn, lowering its levels, and/or inhibiting its fibrillization remain viable therapeutic strategies for Parkinson disease.

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Endoplasmic Reticulum Stress Is Important for the Manifestations of α-SynucleinopathyIn Vivo

Colla

et al. 2012

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Accumulation of misfolded α-synuclein (αS) is mechanistically linked to neurodegeneration in Parkinson's disease (PD) and other α-synucleinopathies. However, how αS causes neurodegeneration is unresolved. Because cellular accumulation of misfolded proteins can lead to endoplasmic reticulum stress/unfolded protein response (ERS/UPR), chronic ERS could contribute to neurodegeneration in α-synucleinopathy. Using the A53T mutant human αS transgenic (A53TαS Tg) mouse model of α-synucleinopathy, we show that disease onset in the αS Tg model is coincident with induction of ER chaperone in neurons exhibiting αS pathology. However, the neuronal ER chaperone induction was not accompanied by the activation of phospho-eIF2α, indicating that α-synucleinopathy is associated with abnormal UPR that could promote cell death. Induction of ERS/UPR was associated with increased levels of ER/microsomal (ER/M) associated αS monomers and aggregates. Significantly, human PD cases also exhibit higher relative levels of ER/M αS than the control cases. Moreover, αS interacts with ER chaperones and overexpression of αS sensitizes neuronal cells to ERS-induced toxicity, suggesting that αS may have direct impact on ER function. This view is supported by the presence of ERS-activated caspase-12 and the accumulation of ER-associated polyubiquitin. More important, treatment with Salubrinal, an anti-ERS compound, significantly attenuates disease manifestations in both the A53TαS Tg mouse model and the Adeno-associated Virus-transduced rat model of A53T α S-dependent dopaminergic neurodegeneration. Our data indicate that the accumulation αS within ER leads to chronic ER stress conditions that contribute to neurodegeneration in α-synucleinopathies. Attenuating chronic ERS could be an effective therapy for PD and other α-synucleinopathies.

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Rab1A Over-Expression Prevents Golgi Apparatus Fragmentation and Partially Corrects Motor Deficits in an Alpha-Synuclein Based Rat Model of Parkinson's Disease

Coune

Bensadoun

Aebischer

et al. 2011

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Although the overabundance of human alpha-synuclein in nigral dopaminergic neurons is considered to play a pathogenic role in Parkinson's disease (PD), it remains unclear how alpha-synuclein leads to neuronal degeneration and motor symptoms. Here, we explored the effect of human alpha-synuclein in the rat substantia nigra following AAV-mediated gene delivery inducing a moderate loss of dopaminergic neurons together with motor impairments. A significant fraction of the surviving nigral neurons were found to express human ␣Syn and displayed a pathological fragmentation of the Golgi apparatus. This observation prompted further investigation on the role of the secretory pathway, in particular at the ER/Golgi level, in alphasynuclein toxicity. To address this question, we co-expressed human alpha-synuclein with Rab1A, a regulator of ER-to-Golgi vesicular trafficking, and found a significant reduction of Golgi fragmentation. Rab1A did not protect the dopaminergic neurons from the alpha-synuclein-induced degeneration that occurred within several months following vector injection. However, we observed in animals co-expressing Rab1A an improvement of motor behavior that correlates with the rescue of normal Golgi morphology in alpha-synuclein-expressing dopaminergic neurons. The non-prenylable mutant Rab1A-DeltaCC did not produce any of the effects observed with the wild-type form of Rab1A, linking the protective role of Rab1A with its activity in ER-to-Golgi vesicular trafficking. In conclusion, Rab1A can rescue the Golgi fragmentation caused by the overabundance of alpha-synuclein in nigral dopaminergic neurons, improving the ability of the surviving neurons to control motor function in hemiparkinsonian animals.

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Parkinson's Disease: Gene Therapies

Coune¹,

Schneider²,

Aebischer³

2012

Cold Spring Harbor Perspectives in Medicine

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An in vivo ultrahigh field 14.1 T ¹H‐MRS study on 6‐OHDA and α‐synuclein‐based rat models of Parkinson's disease: GABA as an early disease marker

et al. 2012

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The detection of Parkinson's disease (PD) in its preclinical stages prior to outright neurodegeneration is essential to the development of neuroprotective therapies and could reduce the number of misdiagnosed patients. However, early diagnosis is currently hampered by lack of reliable biomarkers. 1 H magnetic resonance spectroscopy (MRS) offers a noninvasive measure of brain metabolite levels that allows the identification of such potential biomarkers. This study aimed at using MRS on an ultrahigh field 14.1 T magnet to explore the striatal metabolic changes occurring in two different rat models of the disease. Rats lesioned by the injection of 6-hydroxydopamine (6-OHDA) in the medial-forebrain bundle were used to model a complete nigrostriatal lesion while a genetic model based on the nigral injection of an adeno-associated viral (AAV) vector coding for the human a-synuclein was used to model a progressive neurodegeneration and dopaminergic neuron dysfunction, thereby replicating conditions closer to early pathological stages of PD. MRS measurements in the striatum of the 6-OHDA rats revealed significant decreases in glutamate and N-acetyl-aspartate levels and a significant increase in GABA level in the ipsilateral hemisphere compared with the contralateral one, while the aSyn overexpressing rats showed a significant increase in the GABA striatal level only. Therefore, we conclude that MRS measurements of striatal GABA levels could allow for the detection of early nigrostriatal defects prior to outright neurodegeneration and, as such, offers great potential as a sensitive biomarker of presymptomatic PD.

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