AAV toolkit for axolotl nervous system

IF 5.9 3区农林科学 Q1 VETERINARY SCIENCES

Lab Animal Pub Date : 2025-05-02 DOI:10.1038/s41684-025-01551-2

Alexandra Le Bras

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引用次数: 0

Abstract

The axolotl, which can regenerate injuries to the central and peripheral nervous system, is an emerging model system to study neural circuit regeneration. Most findings in this model come from using classical tracers and imaging techniques, which present important limitations. Therefore, there is a need for new tools to efficiently label and/or manipulate cells in the axolotl nervous system and capture neural circuit regeneration. Studies in rodents and other mammals have frequently used recombinant adeno-associated viruses (AAVs) for targeted gene delivery in the nervous system, facilitating both circuit identification and functional circuit analysis. However, there are still no reports of AAV-mediated gene delivery to axolotl nervous system tissue. A new study in PNAS presents a set of AAV serotypes for efficient gene delivery in the axolotl nervous system, which could facilitate the study of nervous system regeneration. The findings notably show that while AAV8, AAV9, AAVRG and AAVPHP.eB are most suited to label neurons of the axolotl brain, AAV8, AAV9, and AAVPHP.eB are also suited to label cells of the spinal cord, with AAV9 being also the most suitable to label retinal cells.

Original reference: Lust, K. & Tanaka, E.M. Proc. Natl. Acad. Sci. USA 122, e2421373122 (2025)

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蝾螈神经系统AAV工具包

蝾螈可再生中枢和周围神经系统损伤，是研究神经回路再生的新兴模型系统。该模型中的大多数发现来自使用经典的示踪剂和成像技术，这些技术存在重要的局限性。因此，需要新的工具来有效地标记和/或操纵蝾螈神经系统中的细胞，并捕获神经回路的再生。在啮齿类动物和其他哺乳动物的研究中，经常使用重组腺相关病毒（aav）在神经系统中进行靶向基因传递，从而促进了回路识别和功能回路分析。然而，目前还没有aav介导的基因传递到蝾螈神经系统组织的报道。PNAS上的一项新研究提出了一组AAV血清型，用于在蝾螈神经系统中有效地传递基因，这可以促进神经系统再生的研究。研究结果表明，AAV8、AAV9、AAVRG和AAVPHP具有较强的特异性。eB最适合标记美西螈脑神经元AAV8、AAV9和AAVPHP。eB也适合标记脊髓细胞，AAV9也最适合标记视网膜细胞。原始参考：Lust， k &；田中，E.M.。学会科学。USA 122, e2421373122 （2025）

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来源期刊

Lab Animal 农林科学-兽医学

CiteScore

0.60

自引率

2.90%

发文量

181

审稿时长

>36 weeks

期刊介绍： LabAnimal is a Nature Research journal dedicated to in vivo science and technology that improves our basic understanding and use of model organisms of human health and disease. In addition to basic research, methods and technologies, LabAnimal also covers important news, business and regulatory matters that impact the development and application of model organisms for preclinical research. LabAnimal's focus is on innovative in vivo methods, research and technology covering a wide range of model organisms. Our broad scope ensures that the work we publish reaches the widest possible audience. LabAnimal provides a rigorous and fair peer review of manuscripts, high standards for copyediting and production, and efficient publication.