对173名申请实验性反义寡核苷酸治疗的极罕见致病基因突变患者的基因型和表型分析

Stanley T. Crooke, Tracy A Cole, Jeffrey B Carroll, Joseph G Gleeson, Laurence Mignon, Julie Douville, Wendy Chung, Jennifer Bain, Elizabeth M Berry-Kravis, Nelson Leung, Scott Demarest, Emily McCourt, Andy Watt, Berit Powers, Cedrik Ngongang
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引用次数: 0

摘要

随着″组学″技术的最新进展,越来越多因纳米罕见突变而罹患疾病的人被识别出来。这些难以诊断的个体处于独特的不利地位,对医疗系统和社会构成了重大挑战。尽管他们的疾病是由可操作的单基因突变引起的,但在许多情况下,针对此类小规模患者群体的治疗还没有商业化的途径。由于反义寡核苷酸(ASO)技术已被证明适合满足部分这类患者的需求,n-Lorem 基金会正在建立一种工业化方法,将详细的基因型和表型数据与 ASO 治疗的直接潜力相结合。在本手稿中,我们利用自己在评估纳米罕见基因变异和相关近端分子病理事件的因果关系方面的经验,尝试将详细的基因数据与对 173 名不同年龄组纳米罕见患者的特定表型观察结果进行关联,并对这些患者进行 ASO 治疗实验评估。我们发现,获得分子诊断所需的时间从 1 个月到 36 年不等,从症状出现到诊断的平均时间和中位时间估计分别为 4.32 年和 2 年。在提交的病例中,神经系统疾病明显偏多,涉及不同的基因和功能家族,离子通道基因突变明显居多。与 GNAO1、H3F3A、GBE1、UBTF 或 PACS1 等基因中的纳米罕见变异相关的表型表达的变异性清楚地证实了之前的观察结果,即与同一基因中的相同变异相关的表型会有所不同。我们还观察到,不同但功能等同的变异可导致相似的表型(如 TARDBP)和不同的表型(如 GNAO1)。尽管所调查的患者群体规模相对较小,但这一首次同类研究汇编使我们得以深入了解纳米罕见病的基因型和表型关系。为了更详细地描述提供个性化反义药物所涉及的过程,我们纳入了四位典型患者的非临床和临床数据,他们分别在中枢神经系统、眼睛和肾脏这三个不同器官中患病,并接受了不同设计的 ASOs 治疗。与传统的药物开发不同,每位患者都面临着独特的基因组、ASO 设计、临床治疗、管理和评估挑战。
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Genotypic and phenotypic analysis of 173 patients with extremely rare pathogenic mutations who applied for experimental antisense oligonucleotide treatment
Recent advances in ″omics″ technologies allow for the identification of an increasing number of individuals with diseases caused by nano-rare mutations. These difficult-to-diagnose individuals are uniquely disadvantaged and pose significant challenges to healthcare systems and society. Despite having diseases caused by actionable single gene mutations, in many cases, there is no commercial path for treatments for such small patient populations. Since antisense oligonucleotide (ASO) technology has proven to be suited to address the needs of a portion of these patients, the n-Lorem Foundation is establishing an industrialized approach that couples detailed genotypic and phenotypic data to the immediate potential for ASO therapy. In this manuscript we have leveraged our experience in assessing the causality of nano-rare genetic variants and associated proximal molecular pathological events to attempt a correlation between detailed genetic data with patient specific phenotypic observations in 173 nano-rare individuals from diverse age groups evaluated for experimental ASO therapy. We found that the time required to achieve a molecular diagnosis varies from 1 month to 36 years, with the mean and median times from symptom onset to diagnosis estimated to be 4.32 years and 2 years, respectively. Amongst submitted cases there is a significant bias toward neurological diseases, with diverse genes and functional families involved and a marked preponderance of mutations in ion channel genes. The variability in phenotypic expression associated with nano-rare variants in genes such as GNAO1, H3F3A, GBE1, UBTF, or PACS1 clearly supports previous observations that phenotypes associated with same variants in the same gene can vary. We also observe that different, but functionally equivalent variants can result in both similar (e.g., TARDBP) and different phenotypes (e.g., GNAO1). Despite the relatively small size of the patient population investigated, this first compilation of its kind allows a variety of insights into the genotype and phenotype relationships in nano-rare conditions. Moreover, we show that our unique patient population presents a remarkable opportunity to apply ″modern omics″ approaches to begin to understand the various homeostatic, compensatory, and secondary effects of these genetic variants on the networks that result in expression of their unique phenotypes. To provide a more detailed description of the processes involved to provide a personalized antisense medicine, we have included nonclinical and clincal data on four exemplary patients who display disease in three different organs, the CNS, the eye and the kidney and are treated with ASOs of different designs. In contrast to traditional drug development, each patient presents unique genomic, ASO design, clinical treatment and management and evaluation challenges.
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