HPDL deficiency causes a neuromuscular disease by impairing the mitochondrial respiration

生物 线粒体 粒线体疾病 氧化磷酸化 表型 基因 基因敲除 呼吸链 遗传学 线粒体DNA 细胞生物学 生物化学
作者
Yu Sun,Xiujuan Wei,Fang Fang,Yiping Shen,Haiyan Wei,Jiuwei Li,Xianglai Ye,Yongkun Zhan,Xiantao Ye,Xiaomin Liu,Wei Yang,Yuhua Li,Geng Xiangju,Xuelin Huang,Yiyan Ruan,Zailong Qin,Shang Yi,Jianxin Lyu,Hezhi Fang,Yongguo Yu
出处
期刊:Journal of Genetics and Genomics [Elsevier BV]
卷期号:48 (8): 727-736 被引量:20
标识
DOI:10.1016/j.jgg.2021.01.009
摘要

Abstract Mitochondrial diseases are caused by variants in both mitochondrial and nuclear genomes. A nuclear gene HPDL (4-hydroxyphenylpyruvate dioxygenase-like), which encodes an intermembrane mitochondrial protein, has been recently implicated in causing a neurodegenerative disease characterized by pediatric-onset spastic movement phenotypes. Here, we report six Chinese patients with bi-allelic HPDL pathogenic variants from four unrelated families showing neuropathic symptoms of variable severity, including developmental delay/intellectual disability, spasm, and hypertonia. Seven different pathogenic variants are identified, of which five are novel. Both fibroblasts and immortalized lymphocytes derived from patients show impaired mitochondrial respiratory function, which is also observed in HPDL-knockdown (KD) HeLa cells. In these HeLa cells, overexpression of a wild-type HPDL gene can rescue the respiratory phenotype of oxygen consumption rate. In addition, a decreased activity of the oxidative phosphorylation (OXPHOS) complex II is observed in patient-derived lymphocytes and HPDL-KD HeLa cells, further supporting an essential role of HPDL in the mitochondrial respiratory chain. Collectively, our data expand the clinical and mutational spectra of this mitochondrial neuropathy and further delineate the possible disease mechanism involving the impairment of the OXPHOS complex II activity due to the bi-allelic inactivations of HPDL.
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