诱导多能干细胞（iPSC）建模验证了在一名疑似糖原贮积病 IV 患者体内发现的新型变体 p.Ile694Asn 导致的 GBE1 酶活性降低。

IF 1.8 4区医学 Q3 GENETICS & HEREDITY Molecular Genetics and Metabolism Reports Pub Date : 2024-03-14 DOI:10.1016/j.ymgmr.2024.101069

Chie Naito , Karis Kosar , Eriko Kishimoto , Loren Pena , Yilun Huang , Kaili Hao , Anas Bernieh , Jennifer Kasten , Chet Villa , Priya Kishnani , Bali Deeksha , Mingxia Gu , Akihiro Asai

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引用次数: 0

摘要

背景糖原贮积病 4 型（GSD4）是一种由糖原分支酶 1（GBE1）缺乏引起的罕见疾病，影响多个器官系统，包括肌肉、肝脏、心脏和中枢神经系统。我们在此报告了一名 GSD4 患者，该患者表现为严重的肝脾肿大和心室肥大。GBE1 测序发现了两个变体：一个是已知的致病性错义变体 c.1544G>A（p.Arg515His），另一个是意义不明的错义变体（VUS）c.2081T>A（p.Ile694Asn）。由于单纯肝移植会加重 GSD4 患者的心脏功能障碍，因此精确诊断对肝移植指征至关重要。为了确定致病变体的特征，我们利用CRISPR/Cas9基因组编辑的诱导多能干细胞（iPSCs）模拟了患者特异性GBE1缺乏症。方法通过 CRISPR/Cas9 对来自健康供体（iPSC-WT）的诱导多能干细胞（iPSC-GBE1-I694N）进行基因组编辑，诱导 GBE1 中的同源 p.Ile694Asn，并将其分化为肝细胞（iHep）或心肌细胞（iCM）。结果与 iPSCwt 相比，分化成 iHep 和 iCM 的 iPSCGBE1-I694N 的 GBE1 蛋白水平和酶活性都有所降低。iHepGBE1-I694N和iCMGBE1-I694N都显示出与患者活检组织学模式相关的多聚糖沉积。在 iHep 和 iCM 细胞系中进行的 GBE1 酶缺乏症建模具有多器官发现，这表明基于 iPSC 的建模有助于阐明新型 VUS 对超罕见疾病的影响。

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Induced pluripotent stem cell (iPSC) modeling validates reduced GBE1 enzyme activity due to a novel variant, p.Ile694Asn, found in a patient with suspected glycogen storage disease IV

Background

Glycogen Storage disease type 4 (GSD4), a rare disease caused by glycogen branching enzyme 1 (GBE1) deficiency, affects multiple organ systems including the muscles, liver, heart, and central nervous system. Here we report a GSD4 patient, who presented with severe hepatosplenomegaly and cardiac ventricular hypertrophy. GBE1 sequencing identified two variants: a known pathogenic missense variant, c.1544G>A (p.Arg515His), and a missense variant of unknown significance (VUS), c.2081T>A (p. Ile694Asn). As a liver transplant alone can exacerbate heart dysfunction in GSD4 patients, a precise diagnosis is essential for liver transplant indication. To characterize the disease-causing variant, we modeled patient-specific GBE1 deficiency using CRISPR/Cas9 genome-edited induced pluripotent stem cells (iPSCs).

Methods

iPSCs from a healthy donor (iPSC-WT) were genome-edited by CRISPR/Cas9 to induce homozygous p.Ile694Asn in GBE1 (iPSC-GBE1-I694N) and differentiated into hepatocytes (iHep) or cardiomyocytes (iCM). GBE1 enzyme activity was measured, and PAS-D staining was performed to analyze polyglucosan deposition in these cells.

Results

iPSC^GBE1-I694N differentiated into iHep and iCM exhibited reduced GBE1 protein level and enzyme activity in both cell types compared to iPSC^wt. Both iHep^GBE1-I694N and iCM^GBE1-I694N showed polyglucosan deposits correlating to the histologic patterns of the patient's biopsies.

Conclusions

iPSC-based disease modeling supported a loss of function effect of p.Ile694Asn in GBE1. The modeling of GBE1 enzyme deficiency in iHep and iCM cell lines had multi-organ findings, demonstrating iPSC-based modeling usefulness in elucidating the effects of novel VUS in ultra-rare diseases.

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来源期刊

Molecular Genetics and Metabolism Reports Biochemistry, Genetics and Molecular Biology-Endocrinology

CiteScore

4.00

自引率

5.30%

发文量

105

审稿时长

33 days

期刊介绍： Molecular Genetics and Metabolism Reports is an open access journal that publishes molecular and metabolic reports describing investigations that use the tools of biochemistry and molecular biology for studies of normal and diseased states. In addition to original research articles, sequence reports, brief communication reports and letters to the editor are considered.