OBJECTIVE: Whereas the contribution of α-synuclein to neurodegeneration in Parkinson disease is well accepted, the putative impact of its close homologue, β-synuclein, is enigmatic. β-Synuclein is widely expressed throughout the central nervous system, as is α-synuclein, but the physiological functions of both proteins remain unknown. Recent findings have supported the view that β-synuclein can act as an ameliorating regulator of α-synuclein-induced neurotoxicity, having neuroprotective rather than neurodegenerative capabilities, and being nonaggregating due to the absence of most of the aggregation-promoting NAC domain. However, a mutation of β-synuclein linked to dementia with Lewy bodies rendered the protein neurotoxic in transgenic mice, and fibrillation of β-synuclein has been demonstrated in vitro. METHODS: Neurotoxicity and aggregation properties of α-, β-, and γ-synuclein were comparatively elucidated in the rat nigro-striatal projection and in cultured neurons. RESULTS: Supporting the hypothesis that β-synuclein can act as a neurodegeneration-inducing factor, we demonstrated that wild-type β-synuclein is neurotoxic for cultured primary neurons. Furthermore, β-synuclein formed proteinase K-resistant aggregates in dopaminergic neurons in vivo, leading to pronounced and progressive neurodegeneration in rats. Expression of β-synuclein caused mitochondrial fragmentation, but this fragmentation did not render mitochondria nonfunctional in terms of ion handling and respiration even at late stages of neurodegeneration. A comparison of the neurodegenerative effects induced by α-, β-, and γ-synuclein revealed that β-synuclein was eventually as neurotoxic as α-synuclein for nigral dopaminergic neurons, whereas γ-synuclein proved to be nontoxic and had very low aggregation propensity. INTERPRETATION: Our results suggest that the role of β-synuclein as a putative modulator of neuropathology in aggregopathies like Parkinson disease and dementia with Lewy bodies needs to be revisited.
OBJECTIVE: Whereas the contribution of α-synuclein to neurodegeneration in Parkinson disease is well accepted, the putative impact of its close homologue, β-synuclein, is enigmatic. β-Synuclein is widely expressed throughout the central nervous system, as is α-synuclein, but the physiological functions of both proteins remain unknown. Recent findings have supported the view that β-synuclein can act as an ameliorating regulator of α-synuclein-induced neurotoxicity, having neuroprotective rather than neurodegenerative capabilities, and being nonaggregating due to the absence of most of the aggregation-promoting NAC domain. However, a mutation of β-synuclein linked to dementia with Lewy bodies rendered the protein neurotoxic in transgenic mice, and fibrillation of β-synuclein has been demonstrated in vitro. METHODS:Neurotoxicity and aggregation properties of α-, β-, and γ-synuclein were comparatively elucidated in the rat nigro-striatal projection and in cultured neurons. RESULTS: Supporting the hypothesis that β-synuclein can act as a neurodegeneration-inducing factor, we demonstrated that wild-type β-synuclein is neurotoxic for cultured primary neurons. Furthermore, β-synuclein formed proteinase K-resistant aggregates in dopaminergic neurons in vivo, leading to pronounced and progressive neurodegeneration in rats. Expression of β-synuclein caused mitochondrial fragmentation, but this fragmentation did not render mitochondria nonfunctional in terms of ion handling and respiration even at late stages of neurodegeneration. A comparison of the neurodegenerative effects induced by α-, β-, and γ-synuclein revealed that β-synuclein was eventually as neurotoxic as α-synuclein for nigral dopaminergic neurons, whereas γ-synuclein proved to be nontoxic and had very low aggregation propensity. INTERPRETATION: Our results suggest that the role of β-synuclein as a putative modulator of neuropathology in aggregopathies like Parkinson disease and dementia with Lewy bodies needs to be revisited.
Authors: Gina M Moriarty; Michael P Olson; Tamr B Atieh; Maria K Janowska; Sagar D Khare; Jean Baum Journal: J Biol Chem Date: 2017-07-14 Impact factor: 5.157
Authors: Carine Ciron; Lu Zheng; Wojciech Bobela; Graham W Knott; Teresa C Leone; Daniel P Kelly; Bernard L Schneider Journal: Acta Neuropathol Commun Date: 2015-04-01 Impact factor: 7.801
Authors: Blagovesta Popova; Alexandra Kleinknecht; Patricia Arendarski; Jasmin Mischke; Dan Wang; Gerhard H Braus Journal: Front Mol Neurosci Date: 2018-03-27 Impact factor: 5.639