野生型线粒体 DNA 变异的异质性导致伴有肺动脉高压和虚弱的代谢性心脏病的发生。

Heteroplasmy of Wild-Type Mitochondrial DNA Variants in Mice Causes Metabolic Heart Disease With Pulmonary Hypertension and Frailty.

机构信息

Centro Nacional de Investigaciones Cardiovasculares Carlos III, Madrid, Spain (A.V.L.-V., R.M., M.B., R.J.-M., J.R.-C.).

The Kennedy Institute of Rheumatology, NDORMS, University of Oxford, UK (A.V.L.-V., A.K.S.).

出版信息

Circulation. 2022 Apr 5;145(14):1084-1101. doi: 10.1161/CIRCULATIONAHA.121.056286. Epub 2022 Mar 3.

DOI:10.1161/CIRCULATIONAHA.121.056286

PMID:35236094

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8969846/

Abstract

BACKGROUND

In most eukaryotic cells, the mitochondrial DNA (mtDNA) is transmitted uniparentally and present in multiple copies derived from the clonal expansion of maternally inherited mtDNA. All copies are therefore near-identical, or homoplasmic. The presence of >1 mtDNA variant in the same cytoplasm can arise naturally or result from new medical technologies aimed at preventing mitochondrial genetic diseases and improving fertility. The latter is called divergent nonpathologic mtDNA heteroplasmy (DNPH). We hypothesized that DNPH is maladaptive and usually prevented by the cell.

METHODS

We engineered and characterized DNPH mice throughout their lifespan using transcriptomic, metabolomic, biochemical, physiologic, and phenotyping techniques. We focused on in vivo imaging techniques for noninvasive assessment of cardiac and pulmonary energy metabolism.

RESULTS

We show that DNPH impairs mitochondrial function, with profound consequences in critical tissues that cannot resolve heteroplasmy, particularly cardiac and skeletal muscle. Progressive metabolic stress in these tissues leads to severe pathology in adulthood, including pulmonary hypertension and heart failure, skeletal muscle wasting, frailty, and premature death. Symptom severity is strongly modulated by the nuclear context.

CONCLUSIONS

Medical interventions that may generate DNPH should address potential incompatibilities between donor and recipient mtDNA.

摘要

背景

在大多数真核细胞中，线粒体 DNA（mtDNA）是单倍体传递的，并且来自母系遗传 mtDNA 的克隆扩增，存在多个拷贝。因此，所有的拷贝都是几乎相同的，或者是同质的。同一细胞质中存在>1 种 mtDNA 变体既可以自然发生，也可以是为了预防线粒体遗传疾病和提高生育能力而采用的新技术导致的。后者称为发散的非致病性 mtDNA 异质性（DNPH）。我们假设，DNPH 是适应不良的，通常会被细胞所阻止。

方法

我们使用转录组学、代谢组学、生物化学、生理学和表型技术，在整个生命周期内对 DNPH 小鼠进行了设计和表征。我们专注于体内成像技术，用于非侵入性评估心脏和肺的能量代谢。

结果

我们表明，DNPH 会损害线粒体功能，在无法解决异质性的关键组织中会产生深远的影响，特别是心脏和骨骼肌。这些组织中的进行性代谢应激导致成年后的严重病理，包括肺动脉高压和心力衰竭、骨骼肌萎缩、虚弱和过早死亡。症状严重程度受到核背景的强烈调节。

结论

可能产生 DNPH 的医疗干预措施应该解决供体和受体 mtDNA 之间可能存在的不兼容性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/38e0/8969846/b9aacb374ba2/cir-145-1084-g001.jpg

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野生型线粒体 DNA 变异的异质性导致伴有肺动脉高压和虚弱的代谢性心脏病的发生。

Heteroplasmy of Wild-Type Mitochondrial DNA Variants in Mice Causes Metabolic Heart Disease With Pulmonary Hypertension and Frailty.

机构信息

Centro Nacional de Investigaciones Cardiovasculares Carlos III, Madrid, Spain (A.V.L.-V., R.M., M.B., R.J.-M., J.R.-C.).

The Kennedy Institute of Rheumatology, NDORMS, University of Oxford, UK (A.V.L.-V., A.K.S.).