Fibril growth and seeding capacity play key roles in α-synuclein-mediated apoptotic cell death

Mahul‐Mellier, Anne‐Laure; Vercruysse, Fangio; Maco, Bohumil; Ait-Bouziad, Nadine; Roo, Mathias De; Michelet, Dominique; Lashuel, Hilal A.

doi:10.1038/cdd.2015.79

Cited by 101 publications

(137 citation statements)

References 67 publications

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“…All known mutations associated with familial PD (A30P, E46K, H50Q, G51D, A53E, and A53T) are found in the N-terminal domain (Krüger et al, 2008; Lesage et al, 2013; Pasanen et al, 2014; Polymeropoulos et al, 1997; Proukakis et al, 2013; Zarranz et al, 2004). These mutations, with the exception of G51D, A53E, and A30P, increase the propensity of α-synuclein to form insoluble aggregates and produce morphologically distinct aggregate species (Ghosh et al, 2014; Giasson et al, 1999; Greenbaum et al, 2005; Lesage et al, 2013; Mahul-Mellier et al, 2015; Narhi et al, 1999). Though the precise mechanism by which these mutations promote aggregation has not been conclusively shown, evidence implicate an accelerated formation of oligomers (Conway et al, 2000) likely due to the destabilization of the native N-terminal conformation (Bertoncini et al, 2005a; Burré et al, 2015; Coskuner and Wise-Scira, 2013; Dettmer et al, 2015).…”

Section: α-Synuclein Structural Flexibilitymentioning

confidence: 99%

Dynamic structural flexibility of α-synuclein

Mor

Ugras

Daniels

et al. 2016

Neurobiology of Disease

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α-Synuclein is a conserved, abundantly expressed protein that is partially localized in pre-synaptic terminals in the central nervous system. The precise biological function(s) and structure of α-synuclein are under investigation. Recently, the native conformation and the presence of naturally occurring multimeric assemblies have come under debate. These are important deliberations because α-synuclein assembles into highly organized amyloid-like fibrils and non-amyloid amorphous aggregates that constitute the neuronal inclusions in Parkinson’s disease and related disorders. Therefore understanding the nature of the native and pathological conformations is pivotal from the standpoint of therapeutic interventions that could maintain α-synuclein in its physiological state. In this review, we will discuss the existing evidence that define the physiological states of α-synuclein and highlight how the inherent structural flexibility of this protein may be important in health and disease.

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Section: α-Synuclein Structural Flexibilitymentioning

confidence: 99%

Dynamic structural flexibility of α-synuclein

Mor

Ugras

Daniels

et al. 2016

Neurobiology of Disease

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“…Based on the latter, nanoparticles, especially those that possess an ability to accelerate brillation, would be proper candidates to reduce oligomers, and consequently hinder cell death [26]. Furthermore, a recent study has suggested that the trend of brillation and aggregation process plays a crucial role in cell toxicity, and inhibiting bril growth and seeding aptitude may act as a viable strategy to protect cells from degeneration [10]. Finally, according to the existing con icts, more investigations are required to elucidate the mechanism of -Syn pathologic species and its impact on cell death while being treated by nanoparticles.…”

Section: Neurotoxicity Of Nanoliposomes and Nanoliposomes Pre-incubatmentioning

confidence: 99%

“…The degeneration of dopaminergic neuronal cells has been shown to be connected with the development of -Syn brillation [10]. Hence, there is a considerable interest in inhibiting -Syn bril formation, which can be a virtuous avenue to impede the development of PD [11][12][13].…”

Section: Introductionmentioning

confidence: 99%

Neurotoxicity of pre-incubated alpha-synuclein with neutral nanoliposomes on PC12 and SHSY5Y cell lines

et al. 2017

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Abstract. Alpha-synuclein ( -Syn) is a protein with high tendency to convert into toxic aggregates that are involved in Parkinson's Disease (PD). The conversion of -Syn into toxic aggregates may associate with bio-membranes and the interaction between -Syn and bio-mimic liposomes can trigger the neurotoxicity. Some inhibitors of -Syn aggregation are challengeable drugs. Using nano carriers such as nanoliposomes may overcome such challenges. Nevertheless, there are few studies on nanoliposomes e ects on neuronal cells and -Syn. Herein, we investigated the neurotoxicity and brinogenesis of neutral charged nanoliposomes. Thin layer evaporation method and hydration method was employed to formulate the nanoliposomes from Dipalmitoylphosphatidylcholine to the size of 100 nm.Fibrillation and cytotoxicity of -Syn treated with nanoliposome were measured. Neither neurotoxicity nor brillation was observed when -Syn treated with di erent concentrations of nanoliposome. These results well indicate that nanoliposome at the concentrations required for drug delivery not only is able to prevent brillation process, but also has no considerable toxic e ects on the cells.

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“…Abnormal a-synuclein accumulates in glial (mainly oligodendroglial cells) and in neurons in multiple system atrophy (MSA) (Galvin et al, 2001;Jellinger, 2009;Dickson and Weller, 2011;Love et al, 2015). Oligomeric a-synuclein species are toxic (Winner et al, 2011) and abnormal a-synuclein has also the capacity of seeding thus facilitating disease progression (Angot et al, 2012;Luk et al, 2009;Mahul-Mellier et al, 2015). PD is characterized clinically by motor disturbances known as parkinsonism which are preceded by several years by sleep disorders, depression, loss of olfaction and variegated autonomic symptoms (pre-parkinsonian symptoms of PD) which continue even after the appearance of motor symptoms.…”

Section: Underlying Molecular Mechanism Of Neurodegenerative Dementiasmentioning

confidence: 98%