Employment of diverse in vitro systems for analyzing multiple aspects of disease, hereditary hemorrhagic telangiectasia (HHT).

IF 6.1 2区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Hyebin Koh, Woojoo Kang, Ying-Ying Mao, Jisoo Park, Sangjune Kim, Seok-Ho Hong, Jong-Hee Lee
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Abstract

Background: In vitro disease modeling enables translational research by providing insight into disease pathophysiology and molecular mechanisms, leading to the development of novel therapeutics. Nevertheless, in vitro systems have limitations for recapitulating the complexity of tissues, and a single model system is insufficient to gain a comprehensive understanding of a disease.

Results: Here we explored the potential of using several models in combination to provide mechanistic insight into hereditary hemorrhagic telangiectasia (HHT), a genetic vascular disorder. Genome editing was performed to establish hPSCs (H9) with ENG haploinsufficiency and several in vitro models were used to recapitulate the functional aspects of the cells that constitute blood vessels. In a 2D culture system, endothelial cells showed early senescence, reduced viability, and heightened susceptibility to apoptotic insults, and smooth muscle cells (SMCs) exhibited similar behavior to their wild-type counterparts. Features of HHT were evident in 3D blood-vessel organoid systems, including thickening of capillary structures, decreased interaction between ECs and surrounding SMCs, and reduced cell viability. Features of ENG haploinsufficiency were observed in arterial and venous EC subtypes, with arterial ECs showing significant impairments. Molecular biological approaches confirmed the significant downregulation of Notch signaling in HHT-ECs.

Conclusions: Overall, we demonstrated refined research strategies to enhance our comprehension of HHT, providing valuable insights for pathogenic analysis and the exploration of innovative therapeutic interventions. Additionally, these results underscore the importance of employing diverse in vitro systems to assess multiple aspects of disease, which is challenging using a single in vitro system.

利用多种体外系统分析遗传性出血性毛细血管扩张症(HHT)疾病的多个方面。
背景:体外疾病建模可深入了解疾病的病理生理学和分子机制,促进转化研究,从而开发出新型疗法。然而,体外系统在再现组织的复杂性方面有其局限性,单一的模型系统不足以全面了解一种疾病:结果:在此,我们探索了结合使用几种模型从机理上深入了解遗传性出血性毛细血管扩张症(HHT)这一遗传性血管疾病的可能性。通过基因组编辑建立了ENG单倍体缺陷的hPSCs(H9),并使用几种体外模型重现了构成血管的细胞的功能方面。在二维培养系统中,内皮细胞表现出早期衰老、活力降低和对凋亡损伤的敏感性增加,平滑肌细胞(SMC)表现出与野生型细胞类似的行为。在三维血管类器官系统中,HHT 的特征非常明显,包括毛细血管结构增厚、EC 与周围 SMC 之间的相互作用减弱以及细胞活力降低。在动脉和静脉EC亚型中观察到了ENG单倍体缺陷的特征,其中动脉EC表现出明显的损伤。分子生物学方法证实了HHT-ECs中Notch信号的显著下调:总之,我们展示了完善的研究策略,提高了我们对 HHT 的理解,为病因分析和创新治疗干预措施的探索提供了有价值的见解。此外,这些结果还强调了采用不同体外系统评估疾病多方面情况的重要性,而采用单一体外系统则具有挑战性。
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
Cell and Bioscience
Cell and Bioscience BIOCHEMISTRY & MOLECULAR BIOLOGY-
CiteScore
10.70
自引率
0.00%
发文量
187
审稿时长
>12 weeks
期刊介绍: Cell and Bioscience, the official journal of the Society of Chinese Bioscientists in America, is an open access, peer-reviewed journal that encompasses all areas of life science research.
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