Literature DB >> 30530489

Lysine methylation by the mitochondrial methyltransferase FAM173B optimizes the function of mitochondrial ATP synthase.

Jędrzej M Małecki1, Hanneke L D M Willemen2, Rita Pinto3, Angela Y Y Ho3, Anders Moen3, Ingrid F Kjønstad3, Boudewijn M T Burgering4, Fried Zwartkruis4, Niels Eijkelkamp2, Pål Ø Falnes5.   

Abstract

Lysine methylation is an important post-translational modification that is also present on mitochondrial proteins, but the mitochondrial lysine-specific methyltransferases (KMTs) responsible for modification are in most cases unknown. Here, we set out to determine the function of human family with sequence similarity 173 member B (FAM173B), a mitochondrial methyltransferase (MTase) reported to promote chronic pain. Using bioinformatics analyses and biochemical assays, we found that FAM173B contains an atypical, noncleavable mitochondrial targeting sequence responsible for its localization to mitochondria. Interestingly, CRISPR/Cas9-mediated KO of FAM173B in mammalian cells abrogated trimethylation of Lys-43 in ATP synthase c-subunit (ATPSc), a modification previously reported as ubiquitous among metazoans. ATPSc methylation was restored by complementing the KO cells with enzymatically active human FAM173B or with a putative FAM173B orthologue from the nematode Caenorhabditis elegans Interestingly, lack of Lys-43 methylation caused aberrant incorporation of ATPSc into the ATP synthase complex and resulted in decreased ATP-generating ability of the complex, as well as decreased mitochondrial respiration. In summary, we have identified FAM173B as the long-sought KMT responsible for methylation of ATPSc, a key protein in cellular ATP production, and have demonstrated functional significance of ATPSc methylation. We suggest renaming FAM173B to ATPSc-KMT (gene name ATPSCKMT).
© 2019 Małecki et al.

Entities:  

Keywords:  ATP synthase; ATP synthase c-subunit; ATPSc-KMT; F1F0-ATPase; FAM173B; KMT; metabolic regulation; methyltransferase; mitochondria; mitochondrial respiratory chain complex; oxidative phosphorylation; post-translational modification (PTM); protein lysine methylation; protein methylation

Mesh:

Substances:

Year:  2018        PMID: 30530489      PMCID: PMC6349101          DOI: 10.1074/jbc.RA118.005473

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


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