CRISPR/Cas9-mediated suppression of A4GALT rescues endothelial cell dysfunction in a fabry disease vasculopathy model derived from human induced pluripotent stem cells

IF 4.9 2区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS Atherosclerosis Pub Date : 2024-08-02 DOI:10.1016/j.atherosclerosis.2024.118549

Yoo Jin Shin , Seung Yun Chae , Hanbi Lee , Xianying Fang , Sheng Cui , Sun Woo Lim , Kang In Lee , Jae Young Lee , Can Li , Chul Woo Yang , Byung Ha Chung

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Abstract

Background and aims

The objective of this study was to investigate the efficacy of CRISPR/Cas9-mediated A4GALT suppression in rescuing endothelial dysfunction in Fabry disease (FD) endothelial cells (FD-ECs) derived from human induced pluripotent stem cells (hiPSCs).

Methods

We differentiated hiPSCs (WT (wild-type), WTC-11), GLA-mutant hiPSCs (GLA-KO, CMC-Fb-002), and CRISPR/Cas9-mediated A4GALT-KO hiPSCs (GLA/A4GALT-KO, Fb-002-A4GALT-KO) into ECs and compared FD phenotypes and endothelial dysfunction. We also analyzed the effect of A4GALT suppression on reactive oxygen species (ROS) formation and transcriptome profiles through RNA sequencing.

Results

GLA-mutant hiPSC-ECs (GLA-KO and CMC-Fb-002) showed downregulated expression of EC markers and significantly reduced α-GalA expression with increased Gb-3 deposition and intra-lysosomal inclusion bodies. However, CRISPR/Cas9-mediated A4GALT suppression in GLA/A4GALT-KO and Fb-002-A4GALT-KO hiPSC-ECs increased expression levels of EC markers and rescued these FD phenotypes. GLA-mutant hiPSC-ECs failed to form tube-like structure in tube formation assays, showing significantly decreased migration of cells into the scratched wound area. In contrast, A4GALT suppression improved tube formation and cell migration capacity. Western blot analysis revealed that MAPK and AKT phosphorylation levels were downregulated while SOD and catalase were upregulated in GLA-KO hiPSC-ECs. However, suppression of A4GALT restored these protein alterations. RNA sequencing analysis demonstrated significant transcriptome changes in GLA-mutant EC, especially in angiogenesis, cell death, and cellular response to oxidative stress. However, these were effectively restored in GLA/A4GALT-KO hiPSC-ECs.

Conclusions

CRISPR/Cas9-mediated A4GALT suppression rescued FD phenotype and endothelial dysfunction in GLA-mutant hiPSC-ECs, presenting a potential therapeutic approach for FD-vasculopathy.

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CRISPR/Cas9 介导的 A4GALT 抑制可挽救由人类诱导多能干细胞衍生的法布里病血管病变模型中的内皮细胞功能障碍

背景和目的本研究的目的是调查 CRISPR/Cas9 介导的 A4GALT 抑制在挽救法布里病（FD）内皮细胞（FD-ECs）的内皮功能障碍方面的疗效，这些细胞来源于人类诱导多能干细胞（hiPSCs）。方法我们将hiPSCs（WT（野生型），WTC-11）、GLA突变型hiPSCs（GLA-KO，CMC-Fb-002）和CRISPR/Cas9介导的A4GALT-KO hiPSCs（GLA/A4GALT-KO，Fb-002-A4GALT-KO）分化成ECs，并比较了FD表型和内皮功能障碍。结果GLA突变的hiPSC-ECs（GLA-KO和CMC-Fb-002）显示EC标志物表达下调，α-GalA表达显著减少，Gb-3沉积和溶酶体内包涵体增加。然而，在GLA/A4GALT-KO和Fb-002-A4GALT-KO hiPSC-EC中，CRISPR/Cas9介导的A4GALT抑制提高了EC标记物的表达水平，并挽救了这些FD表型。GLA突变的hiPSC-EC在管形成试验中未能形成管状结构，显示细胞向划伤伤口区域的迁移显著减少。相比之下，抑制A4GALT可改善管状结构的形成和细胞迁移能力。Western印迹分析显示，在GLA-KO hiPSC-ECs中，MAPK和AKT磷酸化水平下调，而SOD和过氧化氢酶上调。然而，抑制A4GALT可恢复这些蛋白质变化。RNA测序分析表明，GLA突变型EC的转录组发生了显著变化，尤其是在血管生成、细胞死亡和细胞对氧化应激的反应方面。结论CRISPR/Cas9介导的A4GALT抑制挽救了GLA突变型hiPSC-EC的FD表型和内皮功能障碍，为FD-血管病变提供了一种潜在的治疗方法。

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来源期刊

Atherosclerosis 医学-外周血管病

CiteScore

9.80

自引率

3.80%

发文量

1269

审稿时长

36 days

期刊介绍： Atherosclerosis has an open access mirror journal Atherosclerosis: X, sharing the same aims and scope, editorial team, submission system and rigorous peer review. Atherosclerosis brings together, from all sources, papers concerned with investigation on atherosclerosis, its risk factors and clinical manifestations. Atherosclerosis covers basic and translational, clinical and population research approaches to arterial and vascular biology and disease, as well as their risk factors including: disturbances of lipid and lipoprotein metabolism, diabetes and hypertension, thrombosis, and inflammation. The Editors are interested in original or review papers dealing with the pathogenesis, environmental, genetic and epigenetic basis, diagnosis or treatment of atherosclerosis and related diseases as well as their risk factors.