用于血液疾病的CRISPR药物:进展和交付的挑战。

IF 4.9 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Tahereh Mohammadian Gol, Guillermo Ureña-Bailén, Yujuan Hou, Ralph Sinn, Justin S Antony, Rupert Handgretinger, Markus Mezger
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引用次数: 0

摘要

血液疾病是包括血液学肿瘤、凝血障碍和孤儿免疫缺陷疾病在内的一组影响人类健康的疾病。目前基于基因组编辑的治疗方法的改进证明了治疗不同血液疾病的临床前和临床证据。基因组编辑组件,如Cas核酸酶、引导rna和碱基编辑器以质粒、mRNA或核糖核蛋白复合物的形式提供。这些组分最常见的递送载体包括病毒载体(例如,aav和RV)、非病毒载体(例如,LNPs和聚合物)和物理递送方法(例如,电穿孔和显微注射)。上述每种运载工具都有其自身的优点和缺点,开发一种安全的转移方法用于基因组编辑组件的体外和体内应用仍然是一个很大的挑战。此外,将基因组编辑有效载荷传递到目标血细胞,为遗传性单基因血液病和血液肿瘤患者提供可能的治疗方法,面临着关键挑战。在这里,我们批判性地回顾和总结了基因组编辑元件在离体或体内环境中传递到相关血细胞的进展和挑战。此外,我们还试图提供基因组编辑治疗血液疾病的未来临床前景,并可能在递送方法上进行临床级改进。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

CRISPR medicine for blood disorders: Progress and challenges in delivery.

CRISPR medicine for blood disorders: Progress and challenges in delivery.

Blood disorders are a group of diseases including hematological neoplasms, clotting disorders and orphan immune deficiency diseases that affects human health. Current improvements in genome editing based therapeutics demonstrated preclinical and clinical proof to treat different blood disorders. Genome editing components such as Cas nucleases, guide RNAs and base editors are supplied in the form of either a plasmid, an mRNA, or a ribonucleoprotein complex. The most common delivery vehicles for such components include viral vectors (e.g., AAVs and RV), non-viral vectors (e.g., LNPs and polymers) and physical delivery methods (e.g., electroporation and microinjection). Each of the delivery vehicles specified above has its own advantages and disadvantages and the development of a safe transferring method for ex vivo and in vivo application of genome editing components is still a big challenge. Moreover, the delivery of genome editing payload to the target blood cells possess key challenges to provide a possible cure for patients with inherited monogenic blood diseases and hematological neoplastic tumors. Here, we critically review and summarize the progress and challenges related to the delivery of genome editing elements to relevant blood cells in an ex vivo or in vivo setting. In addition, we have attempted to provide a future clinical perspective of genome editing to treat blood disorders with possible clinical grade improvements in delivery methods.

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CiteScore
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