Author
Listed:
- Erna Davydova
(University of Oslo)
- Tadahiro Shimazu
(Cellular Memory Laboratory, RIKEN Cluster for Pioneering Research, Wako)
- Maren Kirstin Schuhmacher
(University of Stuttgart)
- Magnus E. Jakobsson
(University of Copenhagen
Lund University)
- Hanneke L. D. M. Willemen
(Utrecht University)
- Tongri Liu
(University of Oxford)
- Anders Moen
(University of Oslo)
- Angela Y. Y. Ho
(University of Oslo)
- Jędrzej Małecki
(University of Oslo)
- Lisa Schroer
(University of Oslo)
- Rita Pinto
(University of Oslo
Oslo University Hospital)
- Takehiro Suzuki
(Biomolecular Characterization Unit, Technology Platform Division, RIKEN Center for Sustainable Resource Science, Wako)
- Ida A. Grønsberg
(University of Oslo)
- Yoshihiro Sohtome
(Synthetic Organic Chemistry Laboratory, RIKEN Cluster for Pioneering Research, Wako
RIKEN Center for Sustainable Resource Science, Wako)
- Mai Akakabe
(Synthetic Organic Chemistry Laboratory, RIKEN Cluster for Pioneering Research, Wako)
- Sara Weirich
(University of Stuttgart)
- Masaki Kikuchi
(Laboratory for Epigenetics Drug Discovery, RIKEN Center for Biosystems Dynamics Research)
- Jesper V. Olsen
(University of Copenhagen)
- Naoshi Dohmae
(Biomolecular Characterization Unit, Technology Platform Division, RIKEN Center for Sustainable Resource Science, Wako)
- Takashi Umehara
(Laboratory for Epigenetics Drug Discovery, RIKEN Center for Biosystems Dynamics Research)
- Mikiko Sodeoka
(Synthetic Organic Chemistry Laboratory, RIKEN Cluster for Pioneering Research, Wako
RIKEN Center for Sustainable Resource Science, Wako)
- Valentina Siino
(Lund University)
- Michael A. McDonough
(University of Oxford)
- Niels Eijkelkamp
(Utrecht University)
- Christopher J. Schofield
(University of Oxford)
- Albert Jeltsch
(University of Stuttgart)
- Yoichi Shinkai
(Cellular Memory Laboratory, RIKEN Cluster for Pioneering Research, Wako)
- Pål Ø. Falnes
(University of Oslo)
Abstract
Post-translational methylation plays a crucial role in regulating and optimizing protein function. Protein histidine methylation, occurring as the two isomers 1- and 3-methylhistidine (1MH and 3MH), was first reported five decades ago, but remains largely unexplored. Here we report that METTL9 is a broad-specificity methyltransferase that mediates the formation of the majority of 1MH present in mouse and human proteomes. METTL9-catalyzed methylation requires a His-x-His (HxH) motif, where “x” is preferably a small amino acid, allowing METTL9 to methylate a number of HxH-containing proteins, including the immunomodulatory protein S100A9 and the NDUFB3 subunit of mitochondrial respiratory Complex I. Notably, METTL9-mediated methylation enhances respiration via Complex I, and the presence of 1MH in an HxH-containing peptide reduced its zinc binding affinity. Our results establish METTL9-mediated 1MH as a pervasive protein modification, thus setting the stage for further functional studies on protein histidine methylation.
Suggested Citation
Erna Davydova & Tadahiro Shimazu & Maren Kirstin Schuhmacher & Magnus E. Jakobsson & Hanneke L. D. M. Willemen & Tongri Liu & Anders Moen & Angela Y. Y. Ho & Jędrzej Małecki & Lisa Schroer & Rita Pint, 2021.
"The methyltransferase METTL9 mediates pervasive 1-methylhistidine modification in mammalian proteomes,"
Nature Communications, Nature, vol. 12(1), pages 1-14, December.
Handle:
RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-020-20670-7
DOI: 10.1038/s41467-020-20670-7
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