SERAC1 is a component of the mitochondrial serine transporter complex required for the maintenance of mitochondrial DNA-Reference-Cited by-同舟云学术

SERAC1 is a component of the mitochondrial serine transporter complex required for the maintenance of mitochondrial DNA

Published:2022-03-02 Issue:634 Volume:14 Page:
ISSN:1946-6234
Container-title:Science Translational Medicine
language:en
Short-container-title:Sci. Transl. Med.

Author:

Fang Hezhi¹^ORCID,Xie Anran¹^ORCID,Du Miaomiao²³^ORCID,Li Xueyun¹⁴^ORCID,Yang Kaiqiang¹,Fu Yinxu¹,Yuan Xiangshu¹,Fan Runxiao¹,Yu Weidong¹,Zhou Zhuohua¹,Sang Tiantian¹,Nie Ke¹,Li Jin¹,Zhao Qiongya²^ORCID,Chen Zhehui⁵^ORCID,Yang Yanling⁵^ORCID,Hong Chaoyang³^ORCID,Lyu Jianxin¹²³^ORCID

Affiliation:

1. Zhejiang Provincial Key Laboratory of Medical Genetics, College of Laboratory Medicine and Life sciences, Wenzhou Medical University, Wenzhou 325035, China.

2. School of Laboratory Medicine, Hangzhou Medical College, Hangzhou 310000, China.

3. Zhejiang Provincial People’s Hospital, Affiliated People’s Hospital of Hangzhou Medical College, Hangzhou 310000, China.

4. Taizhou Hospital of Zhejiang Province affiliated to Wenzhou Medical University, Taizhou 318000, China.

5. Department of Pediatrics, Peking University First Hospital, Beijing 100000, China.

Abstract

SERAC1 deficiency is associated with the mitochondrial 3-methylglutaconic aciduria with deafness, (hepatopathy), encephalopathy, and Leigh-like disease [MEGD(H)EL] syndrome, but the role of SERAC1 in mitochondrial physiology remains unknown. Here, we generated Serac1 −/− mice that mimic the major diagnostic clinical and biochemical phenotypes of the MEGD(H)EL syndrome. We found that SERAC1 localizes to the outer mitochondrial membrane and is a protein component of the one-carbon cycle. By interacting with the mitochondrial serine transporter protein SFXN1, SERAC1 facilitated and was required for SFXN1-mediated serine transport from the cytosol to the mitochondria. Loss of SERAC1 impaired the one-carbon cycle and disrupted the balance of the nucleotide pool, which led to primary mitochondrial DNA (mtDNA) depletion in mice, HEK293T cells, and patient-derived immortalized lymphocyte cells due to insufficient supply of nucleotides. Moreover, both in vitro and in vivo supplementation of nucleosides/nucleotides restored mtDNA content and mitochondrial function. Collectively, our findings suggest that MEGD(H)EL syndrome shares both clinical and molecular features with the mtDNA depletion syndrome, and nucleotide supplementation may be an effective therapeutic strategy for MEGD(H)EL syndrome.

Publisher

American Association for the Advancement of Science (AAAS)

Subject

General Medicine

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