MOTS-c modulates skeletal muscle function by directly binding and activating CK2.

iScience2024PMID: 39559755

View on PubMed DOI: 10.1016/j.isci.2024.111212

Animal StudyMOTS-C

Plain Language Summary

Mouse study and cell-free mechanistic experiments demonstrating that MOTS-c directly binds and activates casein kinase 2 (CK2) in skeletal muscle, preventing muscle atrophy and enhancing glucose uptake through CK2-dependent mechanisms, with tissue-specific differential CK2 regulation (activation in muscle, suppression in fat) explaining MOTS-c's selective metabolic effects. Identifies CK2 as a direct molecular target of MOTS-c. Establishes CK2 as the first identified direct protein binding target of MOTS-c—explaining how this mitochondrial peptide selectively improves skeletal muscle glucose uptake and prevents atrophy while producing different effects in adipose tissue through the same molecular interaction.

Abstract

MOTS-c is a mitochondrial microprotein that improves metabolism. Here, we demonstrate CK2 is a direct and functional target of MOTS-c. MOTS-c directly binds to CK2 and activates it in cell-free systems. MOTS-c administration to mice prevented skeletal muscle atrophy and enhanced muscle glucose uptake, which were blunted by suppressing CK2 activity. Interestingly, the effects of MOTS-c are tissue-specific. Systemically administered MOTS-c binds to CK2 in fat and muscle, yet stimulates CK2 activity in muscle while suppressing it in fat by differentially modifying CK2-interacting proteins. Notably, a naturally occurring MOTS-c variant, K14Q MOTS-c, has reduced binding to CK2 and does not activate it or elicit its effects. Male K14Q MOTS-c carriers exhibited a higher risk of sarcopenia and type 2 diabetes (T2D) in an age- and physical-activity-dependent manner, whereas females had an age-specific reduced risk of T2D. Altogether, these findings provide evidence that CK2 is required for MOTS-c effects.

Authors

Kumagai, Hiroshi; Kim, Su-Jeong; Miller, Brendan; Zempo, Hirofumi; Tanisawa, Kumpei; Natsume, Toshiharu; Lee, Shin Hyung; Wan, Junxiang; Leelaprachakul, Naphada; Kumagai, Michi Emma; Ramirez, Ricardo; Mehta, Hemal H; Cao, Kevin; Oh, Tae Jung; Wohlschlegel, James A; Sha, Jihui; Nishida, Yuichiro; Fuku, Noriyuki; Dobashi, Shohei; Miyamoto-Mikami, Eri; Takaragawa, Mizuki; Fuku, Mizuho; Yoshihara, Toshinori; Naito, Hisashi; Kawakami, Ryoko; Torii, Suguru; Midorikawa, Taishi; Oka, Koichiro; Hara, Megumi; Iwasaka, Chiharu; Yamada, Yosuke; Higaki, Yasuki; Tanaka, Keitaro; Yen, Kelvin; Cohen, Pinchas

Keywords

Physiologycell biology