细胞外
突触小泡
神经传递
海马结构
细胞生物学
细胞内
生物物理学
化学
膜
平衡
α-突触核蛋白
生物
生物化学
神经科学
小泡
帕金森病
内科学
医学
受体
疾病
作者
Carla R. Pacheco,Camila N. Morales,Alejandra Ramírez Muñoz,Francisco J. Muñoz,Scarlet Gallegos,Pablo Caviedes,Luis G. Aguayo,Carlos Opazo
摘要
Abstract It has been postulated that the accumulation of extracellular α‐synuclein (α‐syn) might alter the neuronal membrane by formation of ‘pore‐like structures’ that will lead to alterations in ionic homeostasis. However, this has never been demonstrated to occur in brain neuronal plasma membranes. In this study, we show that α‐syn oligomers rapidly associate with hippocampal membranes in a punctate fashion, resulting in increased membrane conductance (5 fold over control) and the influx of both calcium and a fluorescent glucose analogue. The enhancement in intracellular calcium (1.7 fold over control) caused a large increase in the frequency of synaptic transmission (2.5 fold over control), calcium transients (3 fold over control), and synaptic vesicle release. Both primary hippocampal and dissociated nigral neurons showed rapid increases in membrane conductance by α‐syn oligomers. In addition, we show here that α‐syn caused synaptotoxic failure associated with a decrease in SV 2, a membrane protein of synaptic vesicles associated with neurotransmitter release. In conclusion, extracellular α‐syn oligomers facilitate the perforation of the neuronal plasma membrane, thus explaining, in part, the synaptotoxicity observed in neurodegenerative diseases characterized by its extracellular accumulation. image We propose that α‐synuclein (α‐syn) oligomers form pore‐like structures in the plasma membrane of neurons from central nervous system (CNS). We believe that extracellular α‐syn oligomers facilitate the formation of α‐syn membrane pore‐like structures, thus explaining, in part, the synaptotoxicity observed in neurodegenerative diseases characterized by its extracellular accumulation. We think that alterations in ionic homeostasis and synaptic vesicular depletion are key steps that lead to synaptotoxicity promoted by α ‐syn membrane pore‐like structures.
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