Adeno-associated virus 9 (AAV9) viral proteins VP1, VP2, and membrane-associated accessory protein (MAAP) differentially influence in vivo transgene expression.

IF 4 2区 医学 Q2 VIROLOGY
Journal of Virology Pub Date : 2024-11-19 Epub Date: 2024-10-30 DOI:10.1128/jvi.01681-24
Sara K Powell, Thomas J McCown
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引用次数: 0

Abstract

Adeno-associated virus (AAV) is a Dependoparvovirus with a ssDNA ~4.7 kb genome in a ~25 nm icosahedral capsid structure. AAV genomes encode nine known functional proteins from two open reading frames between two inverted terminal repeats (ITRs). In recombinant AAV vectors for gene therapy use, the AAV genome is replaced with a transgene of interest flanked by ITRs and subsequently packaged within an AAV capsid made up of three viral structural proteins (VP1, VP2, and VP3) in an approximate 1:1:10 ratio, respectively. The AAV capsid, particularly VP3, has traditionally been ascribed to capsid-cellular receptor binding. However, AAV9 VP1/VP2 exhibits a capsid-promoter interaction that can alter neuronal cellular tropism in the rat and non-human primate central nervous system. This capsid-promoter interaction is altered by AAV9EU (AAV9 with six glutamates inserted at aa139) which exhibits a significant reduction in nuclear transgene DNA, a decrease in neuronal transduction, and a reduction in vivo relative transgene mRNA levels. AAV9EU has six amino acid insertions in VP1, VP2, and MAAP (membrane-associated accessory protein), but no combination of VP with MAAP recapitulated the AAV9EU in vivo phenotype. Surprisingly, AAV9 produced in the absence of MAAP9 exhibits an increase in relative transgene levels. While co-infusing two AAV9 vectors, differing only in transgene and MAAP9 presence during production, exhibit a significantly increased in vivo transgene fluorescence intensity by fivefold of both transgenes. Together, an MAAP9-related activity acts both in cis and in trans to increase AAV9 transgene mRNA levels and AAV9 transgene protein levels in vivo.

Importance: Recombinant adeno-associated viruses (AAVs) are used extensively in clinical gene therapy for treating a range of tissues and pathologies in humans. In particular, AAV9 occupies a prominent position in central nervous system (CNS) gene therapy given its central role in ongoing clinical trials and an FDA-approved therapeutic. Despite its widespread use, recent studies have identified unique roles for the AAV capsid in in vivo transgene expression; for example, interior-facing capsid residues of AAV VP1 and VP2 modulate cellular transgene expression in vivo. The following experiments identified that the AAV9 MAAP protein exerts a significant influence on in vivo transgene expression. This finding could further explain how AAV can remain latent after infection in vivo. Together, these studies provide novel functional insights that highlight the importance of further understanding basic AAV biology.

腺相关病毒9(AAV9)病毒蛋白VP1、VP2和膜相关附属蛋白(MAAP)对体内转基因表达的影响各不相同。
腺相关病毒(AAV)是一种依赖性巴拉瓦病毒,其 ssDNA 基因组约为 4.7 kb,具有约 25 nm 的二十面体荚膜结构。AAV 基因组由两个倒置末端重复序列(ITR)之间的两个开放阅读框编码九种已知的功能蛋白。在用于基因治疗的重组 AAV 载体中,AAV 基因组被 ITRs 侧翼的感兴趣的转基因取代,随后被包装在由三种病毒结构蛋白(VP1、VP2 和 VP3)组成的 AAV 荚膜中,三者的比例约为 1:1:10。AAV 荚膜,尤其是 VP3,历来被认为与荚膜-细胞受体结合有关。然而,AAV9 VP1/VP2 表现出一种噬菌体与启动子之间的相互作用,这种作用可改变大鼠和非人灵长类中枢神经系统中神经元细胞的趋向性。AAV9EU(在 aa139 处插入六个谷氨酸的 AAV9)改变了这种囊膜-启动子相互作用,表现出核转基因 DNA 显著减少、神经元转导减少以及体内相对转基因 mRNA 水平降低。AAV9EU 在 VP1、VP2 和 MAAP(膜相关附属蛋白)中插入了六个氨基酸,但 VP 与 MAAP 的组合并不能再现 AAV9EU 在体内的表型。令人惊讶的是,在缺少 MAAP9 的情况下产生的 AAV9 表现出相对转基因水平的增加。两种AAV9载体在生产过程中仅在转基因和MAAP9存在方面存在差异,但共同注入后,两种转基因在体内的转基因荧光强度显著增加了五倍。总之,一种与 MAAP9 相关的活性在顺式和反式中都能提高 AAV9 转基因 mRNA 水平和体内 AAV9 转基因蛋白水平:重组腺相关病毒(AAV)被广泛用于临床基因治疗,以治疗人体的各种组织和病症。其中,AAV9在中枢神经系统(CNS)基因治疗中占有重要地位,因为它在正在进行的临床试验中发挥着核心作用,是美国食品及药物管理局(FDA)批准的一种疗法。尽管 AAV9 被广泛使用,但最近的研究发现了 AAV 病毒外壳在体内转基因表达中的独特作用;例如,AAV VP1 和 VP2 面向内部的外壳残基可调节体内细胞转基因的表达。接下来的实验发现,AAV9 MAAP 蛋白对体内转基因表达有重大影响。这一发现可以进一步解释 AAV 在体内感染后如何保持潜伏状态。总之,这些研究提供了新的功能性见解,凸显了进一步了解 AAV 基本生物学的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Virology
Journal of Virology 医学-病毒学
CiteScore
10.10
自引率
7.40%
发文量
906
审稿时长
1 months
期刊介绍: Journal of Virology (JVI) explores the nature of the viruses of animals, archaea, bacteria, fungi, plants, and protozoa. We welcome papers on virion structure and assembly, viral genome replication and regulation of gene expression, genetic diversity and evolution, virus-cell interactions, cellular responses to infection, transformation and oncogenesis, gene delivery, viral pathogenesis and immunity, and vaccines and antiviral agents.
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