利用工程化病毒样颗粒进行腺嘌呤碱基编辑可挽救患者来源肠道类器官中的G542X突变。

Adenine base editing with engineered virus-like particles rescues the mutation G542X in patient-derived intestinal organoids.

作者信息

Nicosia Lucia, Pranke Iwona, Latorre Roberta V, Murray Joss B, Lonetti Lisa, Cavusoglu-Doran Kader, Dreano Elise, Costello James P, Carroll Michael, Melotti Paola, Sorio Claudio, Sermet-Gaudelus Isabelle, Scallan Martina F, Harrison Patrick T

机构信息

Department of Physiology, University College Cork, Cork, Ireland.

School of Microbiology, University College Cork, Cork, Ireland.

出版信息

iScience. 2025 Feb 21;28(3):111979. doi: 10.1016/j.isci.2025.111979. eCollection 2025 Mar 21.

DOI:10.1016/j.isci.2025.111979

PMID:40144632

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11938077/

Abstract

Cystic fibrosis (CF) is a life-shortening autosomal recessive disease, caused by loss-of-function mutations that affect the CF transmembrane conductance regulator (CFTR) anion channel. G542X is the second-most common CF-causing variant, and it does not respond to current CFTR modulator drugs. Our study explores the use of adenine base editing to edit G542X to a non-CF-causing variant, G542R, and recover CFTR function. Using base editor engineered virus-like particles (BE-eVLPs) in patient-derived intestinal organoids, we achieved ∼2% G542X-to-G542R editing efficiency and restored CFTR-mediated chloride transport to ∼6.4% of wild-type levels, independent of modulator treatment, and with no bystander edits. This proof-of-principle study demonstrates the potential of base editing to rescue G542X and provides a foundation for future applications.

摘要

囊性纤维化（CF）是一种缩短寿命的常染色体隐性疾病，由影响CF跨膜电导调节因子（CFTR）阴离子通道的功能丧失突变引起。G542X是第二常见的导致CF的变体，并且它对目前的CFTR调节剂药物没有反应。我们的研究探索了使用腺嘌呤碱基编辑将G542X编辑为非致病CF的变体G542R，并恢复CFTR功能。在患者来源的肠道类器官中使用碱基编辑器工程化病毒样颗粒（BE-eVLPs），我们实现了约2%的G542X到G542R的编辑效率，并将CFTR介导的氯离子转运恢复到野生型水平的约6.4%，与调节剂治疗无关，且无旁观者编辑。这项原理验证研究证明了碱基编辑挽救G542X的潜力，并为未来的应用奠定了基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/63c9/11938077/8dc80c02b899/fx1.jpg

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利用工程化病毒样颗粒进行腺嘌呤碱基编辑可挽救患者来源肠道类器官中的G542X突变。

Adenine base editing with engineered virus-like particles rescues the mutation G542X in patient-derived intestinal organoids.

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