视网膜下AAV基因替代仍然是脉络膜血症唯一可行的治疗选择吗?

Pub Date : 2021-01-01 Epub Date: 2021-03-24 DOI:10.1080/21678707.2021.1882300
Ruofan Connie Han, Lewis E Fry, Ariel Kantor, Michelle E McClements, Kanmin Xue, Robert E MacLaren
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引用次数: 0

摘要

脉络膜血症是一种x连锁遗传性视网膜变性,由编码Rab护送蛋白-1 (REP1)的CHM基因突变引起,REP1是一种调节细胞内囊泡运输的蛋白质。CHM的功能缺失突变导致视网膜色素上皮(RPE)进行性丧失,并伴有光感受器和绒毛膜毛细血管变性,导致进行性视野狭窄和视力丧失。据报道,在CHM中有354个独特的突变。虽然基因增强仍然是脉络膜血症的理想治疗选择,但未来可能存在其他潜在的临床策略。涵盖领域:作者检查脉络膜血症的病理生理和遗传基础。他们总结了正在进行的基因治疗试验的现状,并讨论了适用于其他治疗方法的CHM突变,包括基于CRISPR/ cas的DNA和RNA编辑,对过早终止密码子的无义抑制,以及用于剪接修饰的反义寡核苷酸。作者于2020年10月在PubMed和NIH临床试验中进行了文献检索。专家意见:作者得出结论,aav介导的基因增强仍然是治疗脉络膜血症最有效的方法。考虑到CHM突变的异质性以及潜在的风险和益处,基因组编辑方法目前并没有提供显著的优势。无义抑制策略和反义寡核苷酸是令人兴奋的新型治疗选择;然而,它们的临床生存能力仍有待确定。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Is subretinal AAV gene replacement still the only viable treatment option for choroideremia?

Is subretinal AAV gene replacement still the only viable treatment option for choroideremia?

Is subretinal AAV gene replacement still the only viable treatment option for choroideremia?

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Is subretinal AAV gene replacement still the only viable treatment option for choroideremia?

Introduction: Choroideremia is an X-linked inherited retinal degeneration resulting from mutations in the CHM gene, encoding Rab escort protein-1 (REP1), a protein regulating intracellular vesicular transport. Loss-of-function mutations in CHM lead to progressive loss of retinal pigment epithelium (RPE) with photoreceptor and choriocapillaris degeneration, leading to progressive visual field constriction and loss of visual acuity. Three hundred and fifty-four unique mutations have been reported in CHM. While gene augmentation remains an ideal therapeutic option for choroideremia, other potential future clinical strategies may exist.

Areas covered: The authors examine the pathophysiology and genetic basis of choroideremia. They summarize the status of ongoing gene therapy trials and discuss CHM mutations amenable to other therapeutic approaches including CRISPR/Cas-based DNA and RNA editing, nonsense suppression of premature termination codons, and antisense oligonucleotides for splice modification. The authors undertook a literature search in PubMed and NIH Clinical Trials in October 2020.

Expert opinion: The authors conclude that AAV-mediated gene augmentation remains the most effective approach for choroideremia. Given the heterogeneity of CHM mutations and potential risks and benefits, genome-editing approaches currently do not offer significant advantages. Nonsense suppression strategies and antisense oligonucleotides are exciting novel therapeutic options; however, their clinical viability remains to be determined.

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