Novel mutations in MTERF3: First report of a new genetic cause in two Chinese patients with developmental delay, intermittent hypoglycemia and metabolic acidosis

IF 3.9 3区生物学 Q2 CELL BIOLOGY

Mitochondrion Pub Date : 2025-06-19 DOI:10.1016/j.mito.2025.102059

Ruoyu Duan , Refiloe Laurentinah Mahlatsi , Ya Wang , Chaolong Xu , Mingzhao Wang , Zhuo Zou , Zhimei Liu , Huafang Jiang , Xin Duan , Jie Deng , Minhan Song , Yun Liu , Hezhi Fang , JianXin Lyu , Fang Fang

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引用次数: 0

Abstract

MTERF3, a negative regulator of mtDNA transcription, was first identified in 2007.Recent studies have revealed the pivotal role of MTERF3 throughout the entire lifecycle of mtDNA. However, no disease phenotypes have been linked to this gene till now. Genetic testing was performed on two unrelated families. Mitochondrial respiration and OXPHOS complex activity were assessed in patient-derived fibroblasts. An MTERF3 knockdown HEK293 cell line was generated, followed by rescue experiments with wild-type and mutant MTERF3. Two patients mainly presented with developmental delay. Genetic testing identified compound heterozygous variants c.635dup p.(Asn212Lysfs*7) and c.1055C > T p.(Pro352Leu) in Patient 1, and a homozygous variant c.943A > Gp.(Met315Val) in Patient 2. Patient’s fibroblasts and MTERF3 knockdown cells showed impaired mitochondrial respiration and reduced levels of OXPHOS complexes I, III, and IV. Transcription of MT-ND5, ND6, COII, and COIII was reduced, while other mitochondrial genes were upregulated. Wild-type MTERF3 expression restored these defects, but the variant Pro352Leu from patient failed to rescue mitochondrial dysfunction. This study identifies a novel mitochondrial disease phenotype and establishes the first association with MTERF3, expanding the mitochondrial disease spectrum and offering insights into the clinical relevance of the MTERF family.

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MTERF3的新突变：首次报道了两名中国发育迟缓、间歇性低血糖和代谢性酸中毒患者的新遗传原因。

MTERF3是mtDNA转录的负调控因子，于2007年首次被发现。最近的研究揭示了MTERF3在mtDNA的整个生命周期中的关键作用。然而，到目前为止，还没有疾病表型与该基因有关。基因检测是在两个不相关的家庭进行的。在患者来源的成纤维细胞中评估线粒体呼吸和OXPHOS复合物活性。建立MTERF3敲除HEK293细胞系，然后用野生型和突变型MTERF3进行救援实验。2例主要表现为发育迟缓。基因检测在患者1中发现复合杂合变异体c.635dup p.（Asn212Lysfs*7）和c.1055C > T p.(Pro352Leu)，在患者2中发现纯合变异体c.943A > Gp.（Met315Val）。患者成纤维细胞和MTERF3敲低细胞线粒体呼吸受损，OXPHOS复合物I、III、IV水平降低，MT-ND5、ND6、COII、COIII转录减少，其他线粒体基因上调。野生型MTERF3的表达恢复了这些缺陷，但来自患者的变体Pro352Leu未能挽救线粒体功能障碍。本研究确定了一种新的线粒体疾病表型，并首次建立了与MTERF3的关联，扩大了线粒体疾病谱系，并为MTERF家族的临床相关性提供了见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Mitochondrion 生物-细胞生物学

CiteScore

9.40

自引率

4.50%

发文量

审稿时长

13.6 weeks

期刊介绍： Mitochondrion is a definitive, high profile, peer-reviewed international research journal. The scope of Mitochondrion is broad, reporting on basic science of mitochondria from all organisms and from basic research to pathology and clinical aspects of mitochondrial diseases. The journal welcomes original contributions from investigators working in diverse sub-disciplines such as evolution, biophysics, biochemistry, molecular and cell biology, genetics, pharmacology, toxicology, forensic science, programmed cell death, aging, cancer and clinical features of mitochondrial diseases.