Yoo Jin Shin, Hanbi Lee, Xianying Fang, Sheng Cui, Sun Woo Lim, Kang In Lee, Jae Young Lee, Hong Lim Kim, Yuna Oh, Can Li, Chul Woo Yang, Gayeon You, Hyeondo Lee, Hyejung Mok, Byung Ha Chung
{"title":"靶向a4galt的siRNA脂质纳米颗粒改善法布里病表型:内皮细胞比足细胞更有效。","authors":"Yoo Jin Shin, Hanbi Lee, Xianying Fang, Sheng Cui, Sun Woo Lim, Kang In Lee, Jae Young Lee, Hong Lim Kim, Yuna Oh, Can Li, Chul Woo Yang, Gayeon You, Hyeondo Lee, Hyejung Mok, Byung Ha Chung","doi":"10.1016/j.omtn.2025.102573","DOIUrl":null,"url":null,"abstract":"<p><p>In this study, we explore the therapeutic feasibility of globotriaosylceramide (Gb3) synthase (<i>A4GALT</i>)-specific siRNA-loaded polyhistidine (pHis)-incorporated lipid nanoparticles (HLNPs) for Fabry disease (FD). HLNPs were developed to deliver siRNAs targeting <i>A4GALT</i> using a microfluidic device, with pHis aiding in endosome escape. The therapy was tested on <i>GLA</i>-knockout human-induced pluripotent-stem-cell-derived endothelial cells (<i>GLA</i>-KO-hiPSC-ECs) and podocytes (<i>GLA</i>-KO-hiPSC-PCs). <i>GLA</i>-KO-hiPSCs-ECs or -PCs, upon differentiation, were treated with <i>A4GALT</i>-siRNA-HLNP. Successful intracellular uptake of <i>A4GALT</i>-siRNA-HLNP was confirmed through fluorescence and electron microscopy in both cell types. <i>A4GALT</i>-siRNA-HLNP treatment confirmed both cell types' stability at 5 μg/mL. Increased Gb3 deposition and zebra body formation were detected in both cell types, but <i>A4GALT</i>-siRNA-HLNP treatment attenuated these FD phenotypes, demonstrating reduced expression of <i>A4GALT</i> through western blot analysis. RNA sequencing analysis revealed that the expression of transcripts associated with FD was restored by <i>A4GALT</i>-siRNA-HLNP treatment in <i>GLA</i>-KO-hiPSCs-ECs, whereas in <i>GLA</i>-KO-hiPSCs-PCs, this effect was relatively less pronounced. Suppression of <i>A4GALT</i> via siRNA/HLNP treatment significantly rescued FD phenotypes especially in EC, presenting a novel therapeutic approach for FD.</p>","PeriodicalId":18821,"journal":{"name":"Molecular Therapy. 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HLNPs were developed to deliver siRNAs targeting <i>A4GALT</i> using a microfluidic device, with pHis aiding in endosome escape. The therapy was tested on <i>GLA</i>-knockout human-induced pluripotent-stem-cell-derived endothelial cells (<i>GLA</i>-KO-hiPSC-ECs) and podocytes (<i>GLA</i>-KO-hiPSC-PCs). <i>GLA</i>-KO-hiPSCs-ECs or -PCs, upon differentiation, were treated with <i>A4GALT</i>-siRNA-HLNP. Successful intracellular uptake of <i>A4GALT</i>-siRNA-HLNP was confirmed through fluorescence and electron microscopy in both cell types. <i>A4GALT</i>-siRNA-HLNP treatment confirmed both cell types' stability at 5 μg/mL. Increased Gb3 deposition and zebra body formation were detected in both cell types, but <i>A4GALT</i>-siRNA-HLNP treatment attenuated these FD phenotypes, demonstrating reduced expression of <i>A4GALT</i> through western blot analysis. 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A4GALT-targeting siRNA lipid nanoparticles ameliorate Fabry disease phenotype: Greater efficacy in endothelial cells than in podocytes.
In this study, we explore the therapeutic feasibility of globotriaosylceramide (Gb3) synthase (A4GALT)-specific siRNA-loaded polyhistidine (pHis)-incorporated lipid nanoparticles (HLNPs) for Fabry disease (FD). HLNPs were developed to deliver siRNAs targeting A4GALT using a microfluidic device, with pHis aiding in endosome escape. The therapy was tested on GLA-knockout human-induced pluripotent-stem-cell-derived endothelial cells (GLA-KO-hiPSC-ECs) and podocytes (GLA-KO-hiPSC-PCs). GLA-KO-hiPSCs-ECs or -PCs, upon differentiation, were treated with A4GALT-siRNA-HLNP. Successful intracellular uptake of A4GALT-siRNA-HLNP was confirmed through fluorescence and electron microscopy in both cell types. A4GALT-siRNA-HLNP treatment confirmed both cell types' stability at 5 μg/mL. Increased Gb3 deposition and zebra body formation were detected in both cell types, but A4GALT-siRNA-HLNP treatment attenuated these FD phenotypes, demonstrating reduced expression of A4GALT through western blot analysis. RNA sequencing analysis revealed that the expression of transcripts associated with FD was restored by A4GALT-siRNA-HLNP treatment in GLA-KO-hiPSCs-ECs, whereas in GLA-KO-hiPSCs-PCs, this effect was relatively less pronounced. Suppression of A4GALT via siRNA/HLNP treatment significantly rescued FD phenotypes especially in EC, presenting a novel therapeutic approach for FD.
期刊介绍:
Molecular Therapy Nucleic Acids is an international, open-access journal that publishes high-quality research in nucleic-acid-based therapeutics to treat and correct genetic and acquired diseases. It is the official journal of the American Society of Gene & Cell Therapy and is built upon the success of Molecular Therapy. The journal focuses on gene- and oligonucleotide-based therapies and publishes peer-reviewed research, reviews, and commentaries. Its impact factor for 2022 is 8.8. The subject areas covered include the development of therapeutics based on nucleic acids and their derivatives, vector development for RNA-based therapeutics delivery, utilization of gene-modifying agents like Zn finger nucleases and triplex-forming oligonucleotides, pre-clinical target validation, safety and efficacy studies, and clinical trials.
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