基于机器学习的腺相关病毒衣壳工程定向进化

Machine-learning-guided Directed Evolution for AAV Capsid Engineering.

机构信息

School of Artificial Intelligence, Hangzhou Dianzi University, Hangzhou 310018, China.

出版信息

Curr Pharm Des. 2024;30(11):811-824. doi: 10.2174/0113816128286593240226060318.

DOI:10.2174/0113816128286593240226060318

Abstract

Target gene delivery is crucial to gene therapy. Adeno-associated virus (AAV) has emerged as a primary gene therapy vector due to its broad host range, long-term expression, and low pathogenicity. However, AAV vectors have some limitations, such as immunogenicity and insufficient targeting. Designing or modifying capsids is a potential method of improving the efficacy of gene delivery, but hindered by weak biological basis of AAV, complexity of the capsids, and limitations of current screening methods. Artificial intelligence (AI), especially machine learning (ML), has great potential to accelerate and improve the optimization of capsid properties as well as decrease their development time and manufacturing costs. This review introduces the traditional methods of designing AAV capsids and the general steps of building a sequence-function ML model, highlights the applications of ML in the development workflow, and summarizes its advantages and challenges.

摘要

目的基因传递对于基因治疗至关重要。腺相关病毒（AAV）因其广泛的宿主范围、长期表达和低致病性而成为主要的基因治疗载体。然而，AAV 载体存在一些局限性，如免疫原性和靶向性不足。设计或修饰衣壳是提高基因传递效率的一种潜在方法，但受到 AAV 弱生物学基础、衣壳复杂性和当前筛选方法的限制。人工智能（AI），特别是机器学习（ML），具有加速和改进衣壳特性优化以及降低其开发时间和制造成本的巨大潜力。本文介绍了设计 AAV 衣壳的传统方法和构建序列-功能 ML 模型的一般步骤，重点介绍了 ML 在开发工作流程中的应用，并总结了其优点和挑战。

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基于机器学习的腺相关病毒衣壳工程定向进化

Machine-learning-guided Directed Evolution for AAV Capsid Engineering.

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