Literature DB >> 31685661

Contribution of a mitochondrial tyrosyl-tRNA synthetase mutation to the phenotypic expression of the deafness-associated tRNASer(UCN) 7511A>G mutation.

Wenlu Fan1,2,3, Jing Zheng1,2, Wanzhong Kong3, Limei Cui1,2, Maerhaba Aishanjiang1,2, Qiuzi Yi1,2, Min Wang3, Xiaohui Cang1,2, Xiaowen Tang3, Ye Chen1,2, Jun Qin Mo4, Neal Sondheimer5, Wanzhong Ge2, Min-Xin Guan6,2,7,8.   

Abstract

Nuclear modifier genes have been proposed to modify the phenotypic expression of mitochondrial DNA mutations. Using a targeted exome-sequencing approach, here we found that the p.191Gly>Val mutation in mitochondrial tyrosyl-tRNA synthetase 2 (YARS2) interacts with the tRNASer(UCN) 7511A>G mutation in causing deafness. Strikingly, members of a Chinese family bearing both the YARS2 p.191Gly>Val and m.7511A>G mutations displayed much higher penetrance of deafness than those pedigrees carrying only the m.7511A>G mutation. The m.7511A>G mutation changed the A4:U69 base-pairing to G4:U69 pairing at the aminoacyl acceptor stem of tRNASer(UCN) and perturbed tRNASer(UCN) structure and function, including an increased melting temperature, altered conformation, instability, and aberrant aminoacylation of mutant tRNA. Using lymphoblastoid cell lines derived from symptomatic and asymptomatic members of these Chinese families and control subjects, we show that cell lines harboring only the m.7511A>G or p.191Gly>Val mutation revealed relatively mild defects in tRNASer(UCN) or tRNATyr metabolism, respectively. However, cell lines harboring both m.7511A>G and p.191Gly>Val mutations displayed more severe defective aminoacylations and lower tRNASer(UCN) and tRNATyr levels, aberrant aminoacylation, and lower levels of other tRNAs, including tRNAThr, tRNALys, tRNALeu(UUR), and tRNASer(AGY), than those in the cell lines carrying only the m.7511A>G or p.191Gly>Val mutation. Furthermore, mutant cell lines harboring both m.7511A>G and p.191Gly>Val mutations exhibited greater decreases in the levels of mitochondrial translation, respiration, and mitochondrial ATP and membrane potentials, along with increased production of reactive oxygen species. Our findings provide molecular-level insights into the pathophysiology of maternally transmitted deafness arising from the synergy between tRNASer(UCN) and mitochondrial YARS mutations.
© 2019 Fan et al.

Entities:  

Keywords:  RNA metabolism; genetic disorder; hearing; hearing loss; maternal inheritance; maternally transmitted deafness; mitochondrial DNA (mtDNA); mitochondrial disease; mitochondrial metabolism; mitochondrial respiratory chain complex; mitochondrial tRNA; mitochondrial translation; mutation; oxidative stress; pathogenesis; pathophysiology; reactive oxygen species (ROS); synergy; tRNASer(UCN); transfer RNA (tRNA); translation; tyrosyl-tRNA synthetase 2 (YARS2)

Mesh:

Substances:

Year:  2019        PMID: 31685661      PMCID: PMC6916496          DOI: 10.1074/jbc.RA119.010598

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  69 in total

1.  Mutation in TRMU related to transfer RNA modification modulates the phenotypic expression of the deafness-associated mitochondrial 12S ribosomal RNA mutations.

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Review 2.  tRNA recognition and evolution of determinants in seryl-tRNA synthesis.

Authors:  B Lenhard; O Orellana; M Ibba; I Weygand-Durasević
Journal:  Nucleic Acids Res       Date:  1999-02-01       Impact factor: 16.971

3.  Automating the identification of DNA variations using quality-based fluorescence re-sequencing: analysis of the human mitochondrial genome.

Authors:  M J Rieder; S L Taylor; V O Tobe; D A Nickerson
Journal:  Nucleic Acids Res       Date:  1998-02-15       Impact factor: 16.971

4.  Mitochondrial tRNA(Ser(UCN)) variants in 2651 Han Chinese subjects with hearing loss.

Authors:  Xiaowen Tang; Jing Zheng; Zhengbiao Ying; Zhaoyang Cai; Yinglong Gao; Zheyun He; Han Yu; Juan Yao; Yaling Yang; Hui Wang; Ye Chen; Min-Xin Guan
Journal:  Mitochondrion       Date:  2015-05-10       Impact factor: 4.160

5.  Assessing bioenergetic function in response to oxidative stress by metabolic profiling.

Authors:  Brian P Dranka; Gloria A Benavides; Anne R Diers; Samantha Giordano; Blake R Zelickson; Colin Reily; Luyun Zou; John C Chatham; Bradford G Hill; Jianhua Zhang; Aimee Landar; Victor M Darley-Usmar
Journal:  Free Radic Biol Med       Date:  2011-08-16       Impact factor: 7.376

6.  Post-transcriptional regulation of the steady-state levels of mitochondrial tRNAs in HeLa cells.

Authors:  M P King; G Attardi
Journal:  J Biol Chem       Date:  1993-05-15       Impact factor: 5.157

7.  Biochemical characterization of the mitochondrial tRNASer(UCN) T7511C mutation associated with nonsyndromic deafness.

Authors:  Xiaoming Li; Nathan Fischel-Ghodsian; Faina Schwartz; Qingfeng Yan; Rick A Friedman; Min-Xin Guan
Journal:  Nucleic Acids Res       Date:  2004-02-11       Impact factor: 16.971

8.  The selective tRNA aminoacylation mechanism based on a single G•U pair.

Authors:  Masahiro Naganuma; Shun-ichi Sekine; Yeeting Esther Chong; Min Guo; Xiang-Lei Yang; Howard Gamper; Ya-Ming Hou; Paul Schimmel; Shigeyuki Yokoyama
Journal:  Nature       Date:  2014-06-11       Impact factor: 49.962

9.  A deafness-associated tRNAAsp mutation alters the m1G37 modification, aminoacylation and stability of tRNAAsp and mitochondrial function.

Authors:  Meng Wang; Yanyan Peng; Jing Zheng; Binjiao Zheng; Xiaofen Jin; Hao Liu; Yong Wang; Xiaowen Tang; Taosheng Huang; Pingping Jiang; Min-Xin Guan
Journal:  Nucleic Acids Res       Date:  2016-08-17       Impact factor: 16.971

10.  A coronary artery disease-associated tRNAThr mutation altered mitochondrial function, apoptosis and angiogenesis.

Authors:  Zidong Jia; Ye Zhang; Qiang Li; Zhenzhen Ye; Yuqi Liu; Changzhu Fu; Xiaohui Cang; Meng Wang; Min-Xin Guan
Journal:  Nucleic Acids Res       Date:  2019-02-28       Impact factor: 16.971
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Journal:  J Biol Chem       Date:  2020-07-28       Impact factor: 5.157

Review 2.  Maternally inherited mitochondrial respiratory disorders: from pathogenetic principles to therapeutic implications.

Authors:  Martine Uittenbogaard; Anne Chiaramello
Journal:  Mol Genet Metab       Date:  2020-06-27       Impact factor: 4.797

3.  Overexpression of mitochondrial histidyl-tRNA synthetase restores mitochondrial dysfunction caused by a deafness-associated tRNAHis mutation.

Authors:  Shasha Gong; Xiaoqiong Wang; Feilong Meng; Limei Cui; Qiuzi Yi; Qiong Zhao; Xiaohui Cang; Zhiyi Cai; Jun Qin Mo; Yong Liang; Min-Xin Guan
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4.  A deafness-associated mitochondrial DNA mutation caused pleiotropic effects on DNA replication and tRNA metabolism.

Authors:  Feilong Meng; Zidong Jia; Jing Zheng; Yanchun Ji; Jing Wang; Yun Xiao; Yong Fu; Meng Wang; Feng Ling; Min-Xin Guan
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5.  Human TRUB1 is a highly conserved pseudouridine synthase responsible for the formation of Ψ55 in mitochondrial tRNAAsn, tRNAGln, tRNAGlu and tRNAPro.

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6.  FARS2 deficiency in Drosophila reveals the developmental delay and seizure manifested by aberrant mitochondrial tRNA metabolism.

Authors:  Wenlu Fan; Xiaoye Jin; Man Xu; Yongmei Xi; Weiguo Lu; Xiaohang Yang; Min-Xin Guan; Wanzhong Ge
Journal:  Nucleic Acids Res       Date:  2021-12-16       Impact factor: 16.971
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