Exploiting urine-derived induced pluripotent stem cells for advancing precision medicine in cell therapy, disease modeling, and drug testing.

IF 9 2区 医学 Q1 CELL BIOLOGY
Xiya Yin, Qingfeng Li, Yan Shu, Hongbing Wang, Biju Thomas, Joshua T Maxwell, Yuanyuan Zhang
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引用次数: 0

Abstract

The field of regenerative medicine has witnessed remarkable advancements with the emergence of induced pluripotent stem cells (iPSCs) derived from a variety of sources. Among these, urine-derived induced pluripotent stem cells (u-iPSCs) have garnered substantial attention due to their non-invasive and patient-friendly acquisition method. This review manuscript delves into the potential and application of u-iPSCs in advancing precision medicine, particularly in the realms of drug testing, disease modeling, and cell therapy. U-iPSCs are generated through the reprogramming of somatic cells found in urine samples, offering a unique and renewable source of patient-specific pluripotent cells. Their utility in drug testing has revolutionized the pharmaceutical industry by providing personalized platforms for drug screening, toxicity assessment, and efficacy evaluation. The availability of u-iPSCs with diverse genetic backgrounds facilitates the development of tailored therapeutic approaches, minimizing adverse effects and optimizing treatment outcomes. Furthermore, u-iPSCs have demonstrated remarkable efficacy in disease modeling, allowing researchers to recapitulate patient-specific pathologies in vitro. This not only enhances our understanding of disease mechanisms but also serves as a valuable tool for drug discovery and development. In addition, u-iPSC-based disease models offer a platform for studying rare and genetically complex diseases, often underserved by traditional research methods. The versatility of u-iPSCs extends to cell therapy applications, where they hold immense promise for regenerative medicine. Their potential to differentiate into various cell types, including neurons, cardiomyocytes, and hepatocytes, enables the development of patient-specific cell replacement therapies. This personalized approach can revolutionize the treatment of degenerative diseases, organ failure, and tissue damage by minimizing immune rejection and optimizing therapeutic outcomes. However, several challenges and considerations, such as standardization of reprogramming protocols, genomic stability, and scalability, must be addressed to fully exploit u-iPSCs' potential in precision medicine. In conclusion, this review underscores the transformative impact of u-iPSCs on advancing precision medicine and highlights the future prospects and challenges in harnessing this innovative technology for improved healthcare outcomes.

利用尿源诱导多能干细胞推进细胞疗法、疾病建模和药物测试方面的精准医疗。
随着多种来源的诱导多能干细胞(iPSCs)的出现,再生医学领域取得了显著进步。其中,尿源诱导多能干细胞(u-iPSCs)因其非侵入性和对患者友好的获取方法而备受关注。本综述手稿深入探讨了尿源诱导多能干细胞在推进精准医疗方面的潜力和应用,尤其是在药物测试、疾病建模和细胞治疗领域。U-iPSCs 是通过对尿液样本中的体细胞进行重编程而产生的,为患者特异性多能细胞提供了独特且可再生的来源。它们在药物测试中的应用为药物筛选、毒性评估和疗效评价提供了个性化平台,从而彻底改变了制药行业。具有不同遗传背景的 u-iPSCs 有助于开发定制的治疗方法,最大限度地减少不良反应,优化治疗效果。此外,u-iPSCs 还在疾病建模方面表现出显著的功效,使研究人员能够在体外重现患者的特异性病理。这不仅加深了我们对疾病机理的了解,也是药物发现和开发的重要工具。此外,基于 u-iPSC 的疾病模型还为研究罕见和基因复杂的疾病提供了一个平台,而传统的研究方法往往对这些疾病的研究不足。u-iPSC 的多功能性还延伸到细胞治疗应用领域,在再生医学方面大有可为。u-iPSCs具有分化成神经元、心肌细胞和肝细胞等各种细胞类型的潜能,因此能够开发出针对患者的细胞替代疗法。这种个性化方法可以最大限度地减少免疫排斥反应,优化治疗效果,从而彻底改变退行性疾病、器官衰竭和组织损伤的治疗方法。然而,要充分发挥 u-iPSCs 在精准医疗中的潜力,还必须应对一些挑战和考虑因素,例如重编程协议的标准化、基因组稳定性和可扩展性。总之,这篇综述强调了u-iPSCs对推进精准医疗的变革性影响,并强调了利用这一创新技术改善医疗效果的未来前景和挑战。
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
Journal of Biomedical Science
Journal of Biomedical Science 医学-医学:研究与实验
CiteScore
18.50
自引率
0.90%
发文量
95
审稿时长
1 months
期刊介绍: The Journal of Biomedical Science is an open access, peer-reviewed journal that focuses on fundamental and molecular aspects of basic medical sciences. It emphasizes molecular studies of biomedical problems and mechanisms. The National Science and Technology Council (NSTC), Taiwan supports the journal and covers the publication costs for accepted articles. The journal aims to provide an international platform for interdisciplinary discussions and contribute to the advancement of medicine. It benefits both readers and authors by accelerating the dissemination of research information and providing maximum access to scholarly communication. All articles published in the Journal of Biomedical Science are included in various databases such as Biological Abstracts, BIOSIS, CABI, CAS, Citebase, Current contents, DOAJ, Embase, EmBiology, and Global Health, among others.
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