多重 Cre 依赖性选择产生用于靶向不同脑内细胞类型的系统性 AAV。

Multiplexed Cre-dependent selection yields systemic AAVs for targeting distinct brain cell types.

机构信息

Division of Biology and Biological Engineering, California Institute of Technology, Pasadena, CA, USA.

Stanley Center for Psychiatric Research, Broad Institute, Cambridge, MA, USA.

出版信息

Nat Methods. 2020 May;17(5):541-550. doi: 10.1038/s41592-020-0799-7. Epub 2020 Apr 20.

DOI:10.1038/s41592-020-0799-7

PMID:32313222

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7219404/

Abstract

Recombinant adeno-associated viruses (rAAVs) are efficient gene delivery vectors via intravenous delivery; however, natural serotypes display a finite set of tropisms. To expand their utility, we evolved AAV capsids to efficiently transduce specific cell types in adult mouse brains. Building upon our Cre-recombination-based AAV targeted evolution (CREATE) platform, we developed Multiplexed-CREATE (M-CREATE) to identify variants of interest in a given selection landscape through multiple positive and negative selection criteria. M-CREATE incorporates next-generation sequencing, synthetic library generation and a dedicated analysis pipeline. We have identified capsid variants that can transduce the central nervous system broadly, exhibit bias toward vascular cells and astrocytes, target neurons with greater specificity or cross the blood-brain barrier across diverse murine strains. Collectively, the M-CREATE methodology accelerates the discovery of capsids for use in neuroscience and gene-therapy applications.

摘要

重组腺相关病毒 (rAAV) 是通过静脉注射进行高效基因传递的载体; 然而，天然血清型显示出有限的靶向性。为了扩大它们的用途，我们使 AAV 衣壳进化以有效地转导成年小鼠大脑中的特定细胞类型。基于我们基于 Cre 重组的 AAV 靶向进化 (CREATE) 平台，我们开发了 Multiplexed-CREATE (M-CREATE)，通过多个正选择和负选择标准，在给定的选择范围内鉴定感兴趣的变体。M-CREATE 结合了下一代测序、合成文库生成和专用分析管道。我们已经鉴定出可以广泛转导中枢神经系统的衣壳变体，表现出对血管细胞和星形胶质细胞的偏向性，具有更高特异性的神经元靶向性，或跨多种小鼠品系穿过血脑屏障。总之，M-CREATE 方法加速了用于神经科学和基因治疗应用的衣壳的发现。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7fa5/7219404/5026ebeeb398/nihms-1574815-f0001.jpg

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多重 Cre 依赖性选择产生用于靶向不同脑内细胞类型的系统性 AAV。

Multiplexed Cre-dependent selection yields systemic AAVs for targeting distinct brain cell types.

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