从遗传数据库计算常染色体隐性遗传线粒体疾病的终生风险。
Lifetime risk of autosomal recessive mitochondrial disorders calculated from genetic databases.
机构信息
Institute of Human Genetics, School of Medicine, Technische Universität München, Munich, Germany; Friedrich-Baur-Institute, Department of Neurology, University Hospital, LMU Munich, Munich, Germany.
Institute of Human Genetics, School of Medicine, Technische Universität München, Munich, Germany; Institute of Human Genetics, Helmholtz Zentrum München, Neuherberg, Germany; Institute of Neurogenomics, Helmholtz Zentrum München, Neuherberg, Germany.
出版信息
EBioMedicine. 2020 Apr;54:102730. doi: 10.1016/j.ebiom.2020.102730. Epub 2020 Apr 16.
BACKGROUND
Mitochondrial disorders are a group of rare diseases, caused by nuclear or mitochondrial DNA mutations. Their marked clinical and genetic heterogeneity as well as referral and ascertainment biases render phenotype-based prevalence estimations difficult. Here we calculated the lifetime risk of all known autosomal recessive mitochondrial disorders on basis of genetic data.
METHODS
We queried the publicly available Genome Aggregation Database (gnomAD) and our in-house exome database to assess the allele frequency of disease-causing variants in genes associated with autosomal recessive mitochondrial disorders. Based on this, we estimated the lifetime risk of 249 autosomal recessive mitochondrial disorders. Three of these disorders and phenylketonuria (PKU) served as a proof of concept since calculations could be aligned with known birth prevalence data from newborn screening reports.
FINDINGS
The estimated lifetime risks are very close to newborn screening data (where available), supporting the validity of the approach. For example, calculated lifetime risk of PKU (16·0/100,000) correlates well with known birth prevalence data (18·7/100,000). The combined estimated lifetime risk of 249 investigated mitochondrial disorders is 31·8 (20·9-50·6)/100,000 in our in-house database, 48·4 (40·3-58·5)/100,000 in the European gnomAD dataset, and 31·1 (26·7-36·3)/100,000 in the global gnomAD dataset. The disorders with the highest lifetime risk (> 3 per 100,000) were, in all datasets, those caused by mutations in the SPG7, ACADM, POLG and SLC22A5 genes.
INTERPRETATION
We provide a population-genetic estimation on the lifetime risk of an entire class of monogenic disorders. Our findings reveal the substantial cumulative prevalence of autosomal recessive mitochondrial disorders, far above previous estimates. These data will be very important for assigning diagnostic a priori probabilities, and for resource allocation in therapy development, public health management and biomedical research.
FUNDING
German Federal Ministry of Education and Research.
背景
线粒体疾病是一组罕见疾病,由核或线粒体 DNA 突变引起。由于其显著的临床和遗传异质性以及转诊和确定的偏倚,基于表型的患病率估计变得困难。在这里,我们根据遗传数据计算了所有已知常染色体隐性线粒体疾病的终身风险。
方法
我们查询了公开可用的基因组聚集数据库 (gnomAD) 和我们内部的外显子组数据库,以评估与常染色体隐性线粒体疾病相关基因的致病变异的等位基因频率。基于此,我们估计了 249 种常染色体隐性线粒体疾病的终身风险。其中三种疾病和苯丙酮尿症 (PKU) 作为概念验证,因为计算结果可以与新生儿筛查报告中的已知出生患病率数据相吻合。
结果
估计的终身风险非常接近新生儿筛查数据(在可用的情况下),支持该方法的有效性。例如,PKU 的计算终身风险(16.0/100,000)与已知的出生患病率数据(18.7/100,000)非常吻合。在我们的内部数据库中,249 种研究的线粒体疾病的合并估计终身风险为 31.8(20.9-50.6)/100,000,在欧洲 gnomAD 数据集为 48.4(40.3-58.5)/100,000,在全球 gnomAD 数据集中为 31.1(26.7-36.3)/100,000。在所有数据集,终生风险最高(> 3/100,000)的疾病是 SPG7、ACADM、POLG 和 SLC22A5 基因突变引起的疾病。
解释
我们提供了一类单基因疾病终身风险的群体遗传学估计。我们的发现揭示了常染色体隐性线粒体疾病的累积患病率非常高,远远超过以前的估计。这些数据对于确定诊断先验概率、在治疗开发、公共卫生管理和生物医学研究中分配资源非常重要。
资助
德国联邦教育和研究部。
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