基因靶向治疗遗传性1型酪氨酸血症作为先天性代谢错误的主要指征的未来。

Pub Date : 2020-01-01 Epub Date: 2020-07-21 DOI:10.1080/21678707.2020.1791082
Whitney S Thompson, Gourish Mondal, Caitlin J Vanlith, Robert A Kaiser, Joseph B Lillegard
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引用次数: 9

摘要

先天性代谢错误(IEMs)通常由单基因突变引起,并共同导致新生儿肝功能障碍,导致慢性肝脏和全身性疾病。目前许多IEMs的治疗仅限于维持治疗,可能仍然需要原位异位肝移植。基因治疗提供了一种潜在的优越方法,通过功能同种异构体纠正或替换有缺陷的基因;然而,他们面临着来自个体疾病及其不同病因、表现和病理生理的复杂性的独特挑战。此外,免疫反应、脱靶基因破坏和肿瘤发生是基因治疗临床应用前需要解决的主要问题。涵盖领域:综述了目前的基因治疗方法,以及基因治疗的进展和障碍。然后关注遗传性1型酪氨酸血症(HT1)的体外和体内基因治疗方法。在所有的IEMs中,HT1特别适合基因治疗,因为被纠正的细胞具有选择性生长优势,从而降低了表型相关性的初始转导阈值。专家意见:HT1不仅是一种安全的基因治疗适应症,而且其独特的特性使其成为一种理想的用于临床研究的IEM。
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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The future of gene-targeted therapy for hereditary tyrosinemia type 1 as a lead indication among the inborn errors of metabolism.

Introduction: Inborn errors of metabolism (IEMs) often result from single-gene mutations and collectively cause liver dysfunction in neonates leading to chronic liver and systemic disease. Current treatments for many IEMs are limited to maintenance therapies that may still require orthotropic liver transplantation. Gene therapies offer a potentially superior approach by correcting or replacing defective genes with functional isoforms; however, they face unique challenges from complexities presented by individual diseases and their diverse etiology, presentation, and pathophysiology. Furthermore, immune responses, off-target gene disruption, and tumorigenesis are major concerns that need to be addressed before clinical application of gene therapy.

Areas covered: The current treatments for IEMs are reviewed as well as the advances in, and barriers to, gene therapy for IEMs. Attention is then given to ex vivo and in vivo gene therapy approaches for hereditary tyrosinemia type 1 (HT1). Of all IEMs, HT1 is particularly amenable to gene therapy because of a selective growth advantage conferred to corrected cells, thereby lowering the initial transduction threshold for phenotypic relevance.

Expert opinion: It is proposed that not only is HT1 a safe indication for gene therapy, its unique characteristics position it to be an ideal IEM to develop for clinical investigation.

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