Janjuha Sharan, Haenggi Tatjana, Chamberlain Thomas C, Rothgangl Tanja, Kissling Lucas, Wilhelm Maria, Mathis Nicolas, Boeck Desiree, Marquart Kim, Ioannidi Eleonora, Moon Woohyun J, Muramatsu Hiromi, Vadovics Máté, Pardi Norbert, Semple Sean C, Tam Ying K, Schwank Gerald
Institute of Pharmacology and Toxicology, University of Zurich, Zurich, Switzerland.
Acuitas Therapeutics, Vancouver, British Columbia, Canada.
Nat Biomed Eng. 2025 Sep 19. doi: 10.1038/s41551-025-01512-7.
Base and prime editing technologies precisely install defined nucleotide edits in both dividing and non-dividing cells, offering potential for correcting pathogenic mutations directly in organisms. However, to fully leverage their therapeutic potential, accurately measuring editing rates with high spatial resolution is crucial. Here we use imaging-based in situ sequencing (ISS) to map base and prime editing events within native tissues. We establish and validate this technology in mouse brains treated with intein-split adenine base editors or prime editors delivered via adeno-associated viral vectors. We next apply ISS in the liver of mice and macaques treated with adenine base editors encoded on lipid nanoparticle-encapsulated mRNA and guide RNA (RNA-LNP). Effective editing was observed across all metabolic zones of liver lobules. Moreover, in experiments where repeated doses of RNA-LNP are administered, the initial dose does not affect the editing efficiency and distribution of the subsequent dose. Our results demonstrate how ISS can visualize gene editing events in vivo and suggest that base editor delivery using RNA-LNP could be used to address a wide spectrum of metabolic liver diseases.
碱基编辑技术和引导编辑技术可在分裂细胞和非分裂细胞中精确引入特定的核苷酸编辑,为在生物体中直接纠正致病突变提供了可能。然而,要充分发挥其治疗潜力,以高空间分辨率准确测量编辑效率至关重要。在此,我们利用基于成像的原位测序(ISS)技术在天然组织中绘制碱基编辑和引导编辑事件。我们在通过腺相关病毒载体递送内含肽切割腺嘌呤碱基编辑器或引导编辑器处理的小鼠大脑中建立并验证了该技术。接下来,我们将ISS应用于用脂质纳米颗粒包裹的信使核糖核酸(mRNA)和引导核糖核酸(RNA-LNP)编码的腺嘌呤碱基编辑器处理的小鼠和猕猴的肝脏。在肝小叶的所有代谢区均观察到了有效的编辑。此外,在重复给予RNA-LNP的实验中,初始剂量不影响后续剂量的编辑效率和分布。我们的结果证明了ISS如何在体内可视化基因编辑事件,并表明使用RNA-LNP递送碱基编辑器可用于治疗多种代谢性肝脏疾病。
