镰状细胞病治疗的未来在于基因组学。

The future of sickle cell disease therapeutics rests in genomics.

机构信息

McKusick-Nathans Institute and Department of Genetic Medicine, Johns Hopkins University School of Medicine, Baltimore, MD 21205, USA.

出版信息

Dis Model Mech. 2023 Feb 1;16(2). doi: 10.1242/dmm.049765. Epub 2023 Feb 23.

DOI:10.1242/dmm.049765

PMID:36815490

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9983775/

Abstract

Sickle cell disease (SCD) is the most-common monogenic recessive disease in humans, annually affecting almost 300,000 newborns worldwide, 75% of whom live in Africa. Genomics research can accelerate the development of curative therapies for SCD in three ways. First, research should explore the missing heritability of foetal haemoglobin (HbF) - the strongest known modifier of SCD clinical expression - among highly genetically heterogenous and understudied African populations, to provide novel therapeutics targets for HbF induction. Second, SCD research should invest in RNA therapies, either by using microRNA to target the production of HbF proteins by binding to the transcription machinery in a cell, or by directly mediating production of HbF or adult haemoglobin through injection of messenger RNA. Third, investigators should aim to identify currently unknown genetic risk factors for SCD cardiovascular complications, which will address mortality, particularly in adults. Now is the time for global research programs to uncover genomic keys to unlock SCD therapeutics.

摘要

镰状细胞病（SCD）是人类最常见的单基因隐性遗传病，全球每年影响近 30 万名新生儿，其中 75%生活在非洲。基因组学研究可以通过三种方式加速 SCD 治疗方法的开发。首先，研究应在遗传高度异质且研究不足的非洲人群中探索胎儿血红蛋白（HbF）的遗传缺失——这是已知对 SCD 临床表达最强的修饰因子，为 HbF 诱导提供新的治疗靶点。其次，SCD 研究应投资于 RNA 疗法，要么通过使用 microRNA 与转录机制结合来靶向 HbF 蛋白的产生，要么通过注射信使 RNA 直接介导 HbF 或成人血红蛋白的产生。第三，研究人员应旨在确定 SCD 心血管并发症的目前未知遗传风险因素，这将解决死亡率问题，尤其是在成年人中。现在是全球研究计划揭示 SCD 治疗学基因组关键的时候了。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5795/9983775/dcaa0e085ede/dmm-16-049765-g1.jpg

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镰状细胞病治疗的未来在于基因组学。

The future of sickle cell disease therapeutics rests in genomics.

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