分离和纯化具有融合能力的抑制性突触小泡的新方法

IF 2.1 Q3 PHYSIOLOGY
Nisha Gopal , Jeremy Leitz , Chuchu Wang , Luis Esquivies , Richard A. Pfuetzner , Axel T. Brunger
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引用次数: 0

摘要

抑制性 GABA 释放神经元特异的突触小泡对于调节神经元的兴奋性至关重要。为了研究抑制性突触小泡的特定分子组成、结构和功能,我们开发了一种从小鼠大脑中分离和纯化 GABA 突触小泡的新方法。使用针对囊泡 GABA 转运体(vGAT)的工程化抗原结合区片段(Fab)从小鼠脑组织中免疫分离 GABA 突触小泡并进行纯化。Western 印迹分析证实,GABA 突触小泡特异性地富集了 vGAT,并在很大程度上清除了其他突触小泡类型(如囊泡谷氨酸转运体(vGLUT1))和其他细胞器的污染物。尽管与哺乳动物大脑中的突触小泡总量相比,vGAT 小泡的丰度相对较低,但这种纯度还是达到了。这些分离出的 GABA 突触小泡的冷冻电镜图像显示了完整的形态,呈圆形,并有突起的蛋白质密度。GABA突触小泡是有功能的,这是由一种混合(体外/体内)小泡融合试验评估的,它们在Ca2+触发下与合成的质膜模拟小泡同步融合,但作为阴性对照,它们在Mg2+触发下没有融合。我们的免疫分离方法也可用于其他类型的囊泡。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A new method for isolation and purification of fusion-competent inhibitory synaptic vesicles

A new method for isolation and purification of fusion-competent inhibitory synaptic vesicles

Synaptic vesicles specific to inhibitory GABA-releasing neurons are critical for regulating neuronal excitability. To study the specific molecular composition, architecture, and function of inhibitory synaptic vesicles, we have developed a new method to isolate and purify GABA synaptic vesicles from mouse brains. GABA synaptic vesicles were immunoisolated from mouse brain tissue using an engineered fragment antigen-binding region (Fab) against the vesicular GABA transporter (vGAT) and purified. Western blot analysis confirmed that the GABA synaptic vesicles were specifically enriched for vGAT and largely depleted of contaminants from other synaptic vesicle types, such as vesicular glutamate transporter (vGLUT1), and other cellular organelles. This degree of purity was achieved despite the relatively low abundance of vGAT vesicles compared to the total synaptic vesicle pool in mammalian brains. Cryo-electron microscopy images of these isolated GABA synaptic vesicles revealed intact morphology with circular shape and protruding proteinaceous densities. The GABA synaptic vesicles are functional, as assessed by a hybrid (ex vivo/in vitro) vesicle fusion assay, and they undergo synchronized fusion with synthetic plasma membrane mimic vesicles in response to Ca2+-triggering, but, as a negative control, not to Mg2+-triggering. Our immunoisolation method could also be applied to other types of vesicles.

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CiteScore
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