eIF4G2-Mediated Translation Initiation of Histone Modifiers Is Essential for Intestinal Stem Cell Maintenance and Differentiation

Haruko Kunitomi
Aye Myat Khaine
Radia Jamee
Mariselle Lancero
Eugenea Raychaudhuri
Samuel Perli
Yoshiko Sato
Mio Iwasaki
Pedro Ruivo
Kiichiro Tomoda
Mari Mito
Yuichi Shichino
Shintaro Iwasaki
Shinya Yamanaka

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Abstract

eIF4G2 (also known as NAT1, p97, or DAP5) is an evolutionally conserved protein homologous to the C-terminal two-thirds portion of eukaryotic translation initiation factor (eIF) 4G. Despite its abundant and ubiquitous expression, the physiological and pathological functions of eIF4G2 are poorly understood. Here, we show that acute loss of eIF4G2 in adult mice results in rapid weight loss with abnormalities in multiple organs, including impaired maintenance and differentiation of intestinal stem cells. Genome-wide ribosome profiling revealed that eIF4G2 is critical for the translation of key histone modification proteins involved in intestinal stemness. Our study underscores the importance of eIF4G2-mediated translation initiation in multicellular organisms.

Version published to 10.1101/2025.05.19.652834v1 on bioRxiv
May 20, 2025

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