Mutations in MTFMT Underlie a Human Disorder of Formylation Causing Impaired Mitochondrial Translation

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• 作者：Elena  ; J. Tucker¹ ;   ; ³ ;   ; ¹⁵ ; Steven  ; G. Hershman⁴ ;   ; ⁵ ;   ; ⁶ ;   ; ¹⁵ ; Caroline Kö ; hrer⁷ ;   ; ¹⁵ ; Casey  ; A. Belcher-Timme⁴ ;   ; ⁵ ;   ; ⁶ ; Jinal Patel⁶ ; Olga  ; A. Goldberger⁴ ;   ; ⁵ ;   ; ⁶ ; John Christodoulou⁸ ;   ; ⁹ ;   ; ¹⁰ ; Jonathon  ; M. Silberstein¹¹ ; Matthew McKenzie¹² ; Michael  ; T. Ryan¹³ ;   ; ¹⁴ ; Alison  ; G. Compton¹ ; Jacob  ; D. Jaffe⁶ ; Steven  ; A. Carr⁶ ; Sarah  ; E. Calvo⁴ ;   ; ⁵ ;   ; ⁶ ; Uttam  ; L. RajBhandary⁷ ; David  ; R. Thorburn¹ ;   ; ² ;   ; ³ ;   ; ^{david.thorburn@mcri.edu.au} ; Vamsi  ; K. Mootha⁴ ;   ; ⁵ ;   ; ⁶ ;   ; ^{vamsi@hms.harvard.edu}
• 刊名：Cell Metabolism
• 出版年：2011
• 出版时间：7 September 2011
• 年：2011
• 卷：14
• 期：3
• 页码：428-434
• 全文大小：960 K

文摘

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Summary

The metazoan mitochondrial translation machinery is unusual in having a single tRNA^Met that fulfills the dual role of the initiator and elongator tRNA^Met. A portion of the Met-tRNA^Met pool is formylated by mitochondrial methionyl-tRNA formyltransferase (MTFMT) to generate N-formylmethionine-tRNA^Met (fMet-tRNA^met), which is used for translation initiation; however, the requirement of formylation for initiation in human mitochondria is still under debate. Using targeted sequencing of the mtDNA and nuclear exons encoding the mitochondrial proteome (MitoExome), we identified compound heterozygous mutations in MTFMT in two unrelated children presenting with Leigh syndrome and combined OXPHOS deficiency. Patient fibroblasts exhibit severe defects in mitochondrial translation that can be rescued by exogenous expression of MTFMT. Furthermore, patient fibroblasts have dramatically reduced fMet-tRNA^Met levels and an abnormal formylation profile of mitochondrially translated COX1. Our findings demonstrate that MTFMT is critical for efficient human mitochondrial translation and reveal a human disorder of Met-tRNA^Met formylation.