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狂犬病病毒假型化用 CVS-N2C 糖蛋白作为强大的逆行神经元网络示踪工具。

Rabies Virus Pseudotyped with CVS-N2C Glycoprotein as a Powerful Tool for Retrograde Neuronal Network Tracing.

机构信息

Shenzhen Key Lab of Neuropsychiatric Modulation and Collaborative Innovation Center for Brain Science, Guangdong Provincial Key Laboratory of Brain Connectome and Behavior, CAS Center for Excellence in Brain Science and Intelligence Technology, Brain Cognition and Brain Disease Institute (BCBDI), Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, Shenzhen-Hong Kong Institute of Brain Science-Shenzhen Fundamental Research Institutions, Shenzhen, 518055, China.

State Key Laboratory of Magnetic Resonance and Atomic and Molecular Physics, Key Laboratory of Magnetic Resonance in Biological Systems, Wuhan Center for Magnetic Resonance, Wuhan Institute of Physics and Mathematics, Chinese Academy of Sciences, Wuhan, 430071, China.

出版信息

Neurosci Bull. 2020 Mar;36(3):202-216. doi: 10.1007/s12264-019-00423-3. Epub 2019 Aug 23.

DOI:10.1007/s12264-019-00423-3
PMID:31444652
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7056755/
Abstract

Efficient viral vectors for mapping and manipulating long-projection neuronal circuits are crucial in structural and functional studies of the brain. The SAD strain rabies virus with the glycoprotein gene deleted pseudotyped with the N2C glycoprotein (SAD-RV(ΔG)-N2C(G)) shows strong neuro-tropism in cell culture, but its in vivo efficiency for retrograde gene transduction and neuro-tropism have not been systematically characterized. We compared these features in different mouse brain regions for SAD-RV-N2C(G) and two other widely-used retrograde tracers, SAD-RV(ΔG)-B19(G) and rAAV2-retro. We found that SAD-RV(ΔG)-N2C(G) enhanced the infection efficiency of long-projecting neurons by ~10 times but with very similar neuro-tropism, compared with SAD-RV(ΔG)-B19(G). On the other hand, SAD-RV(ΔG)-N2C(G) had an infection efficiency comparable with rAAV2-retro, but a more restricted diffusion range, and broader tropism to different types and regions of long-projecting neuronal populations. These results demonstrate that SAD-RV(ΔG)-N2C(G) can serve as an effective retrograde vector for studying neuronal circuits.

摘要

用于绘制和操作长投射神经元回路的高效病毒载体在大脑的结构和功能研究中至关重要。缺失糖蛋白基因的 SAD 株狂犬病病毒被 N2C 糖蛋白假型化(SAD-RV(ΔG)-N2C(G))在细胞培养中显示出强烈的神经趋向性,但它在体内逆行基因转导和神经趋向性的效率尚未得到系统表征。我们比较了 SAD-RV-N2C(G)和两种其他广泛使用的逆行示踪剂 SAD-RV(ΔG)-B19(G)和 rAAV2-retro 在不同小鼠脑区的这些特征。我们发现,与 SAD-RV(ΔG)-B19(G)相比,SAD-RV(ΔG)-N2C(G)增强了长投射神经元的感染效率约 10 倍,但神经趋向性相似。另一方面,SAD-RV(ΔG)-N2C(G)与 rAAV2-retro 的感染效率相当,但扩散范围更受限,对不同类型和区域的长投射神经元群体的趋向性更广。这些结果表明,SAD-RV(ΔG)-N2C(G)可以作为研究神经元回路的有效逆行载体。

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