FAM86A methylation of eEF2 links mRNA translation elongation to tumorigenesis

Joel William Francis; Simone Hausmann; Sabeen Ikram; Kunlun Yin; Robert Mealey-Farr; Natasha Mahealani Flores; Annie Truc Trinh; Tourkian Chasan; Julia Thompson; Pawel Karol Mazur; Or Gozani

doi:10.1016/j.molcel.2024.02.037

FAM86A methylation of eEF2 links mRNA translation elongation to tumorigenesis

Joel William Francis, Simone Hausmann, Sabeen Ikram, Kunlun Yin, Robert Mealey-Farr, Natasha Mahealani Flores, Annie Truc Trinh, Tourkian Chasan, Julia Thompson, Pawel Karol Mazur, Or Gozani

Experimental Radiation Oncology

Research output: Contribution to journal › Article › peer-review

Abstract

eEF2 post-translational modifications (PTMs) can profoundly affect mRNA translation dynamics. However, the physiologic function of eEF2K525 trimethylation (eEF2K525me3), a PTM catalyzed by the enzyme FAM86A, is unknown. Here, we find that FAM86A methylation of eEF2 regulates nascent elongation to promote protein synthesis and lung adenocarcinoma (LUAD) pathogenesis. The principal physiologic substrate of FAM86A is eEF2, with K525me3 modeled to facilitate productive eEF2-ribosome engagement during translocation. FAM86A depletion in LUAD cells causes 80S monosome accumulation and mRNA translation inhibition. FAM86A is overexpressed in LUAD and eEF2K525me3 levels increase through advancing LUAD disease stages. FAM86A knockdown attenuates LUAD cell proliferation and suppression of the FAM86A-eEF2K525me3 axis inhibits cancer cell and patient-derived LUAD xenograft growth in vivo. Finally, FAM86A ablation strongly attenuates tumor growth and extends survival in KRAS^G12C-driven LUAD mouse models. Thus, our work uncovers an eEF2 methylation-mediated mRNA translation elongation regulatory node and nominates FAM86A as an etiologic agent in LUAD.

Original language	English (US)
Pages (from-to)	1753-1763.e7
Journal	Molecular cell
Volume	84
Issue number	9
DOIs	https://doi.org/10.1016/j.molcel.2024.02.037
State	Published - May 2 2024

Keywords

cancer
eEF2
elongation
FAM86A
KRAS
lung
lysine methylation
mRNA translation
protein synthesis

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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10.1016/j.molcel.2024.02.037

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title = "FAM86A methylation of eEF2 links mRNA translation elongation to tumorigenesis",

abstract = "eEF2 post-translational modifications (PTMs) can profoundly affect mRNA translation dynamics. However, the physiologic function of eEF2K525 trimethylation (eEF2K525me3), a PTM catalyzed by the enzyme FAM86A, is unknown. Here, we find that FAM86A methylation of eEF2 regulates nascent elongation to promote protein synthesis and lung adenocarcinoma (LUAD) pathogenesis. The principal physiologic substrate of FAM86A is eEF2, with K525me3 modeled to facilitate productive eEF2-ribosome engagement during translocation. FAM86A depletion in LUAD cells causes 80S monosome accumulation and mRNA translation inhibition. FAM86A is overexpressed in LUAD and eEF2K525me3 levels increase through advancing LUAD disease stages. FAM86A knockdown attenuates LUAD cell proliferation and suppression of the FAM86A-eEF2K525me3 axis inhibits cancer cell and patient-derived LUAD xenograft growth in vivo. Finally, FAM86A ablation strongly attenuates tumor growth and extends survival in KRASG12C-driven LUAD mouse models. Thus, our work uncovers an eEF2 methylation-mediated mRNA translation elongation regulatory node and nominates FAM86A as an etiologic agent in LUAD.",

keywords = "cancer, eEF2, elongation, FAM86A, KRAS, lung, lysine methylation, mRNA translation, protein synthesis",

author = "Francis, {Joel William} and Simone Hausmann and Sabeen Ikram and Kunlun Yin and Robert Mealey-Farr and Flores, {Natasha Mahealani} and Trinh, {Annie Truc} and Tourkian Chasan and Julia Thompson and Mazur, {Pawel Karol} and Or Gozani",

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month = may,

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doi = "10.1016/j.molcel.2024.02.037",

language = "English (US)",

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T1 - FAM86A methylation of eEF2 links mRNA translation elongation to tumorigenesis

AU - Francis, Joel William

AU - Hausmann, Simone

AU - Ikram, Sabeen

AU - Yin, Kunlun

AU - Mealey-Farr, Robert

AU - Flores, Natasha Mahealani

AU - Trinh, Annie Truc

AU - Chasan, Tourkian

AU - Thompson, Julia

AU - Mazur, Pawel Karol

AU - Gozani, Or

PY - 2024/5/2

Y1 - 2024/5/2

N2 - eEF2 post-translational modifications (PTMs) can profoundly affect mRNA translation dynamics. However, the physiologic function of eEF2K525 trimethylation (eEF2K525me3), a PTM catalyzed by the enzyme FAM86A, is unknown. Here, we find that FAM86A methylation of eEF2 regulates nascent elongation to promote protein synthesis and lung adenocarcinoma (LUAD) pathogenesis. The principal physiologic substrate of FAM86A is eEF2, with K525me3 modeled to facilitate productive eEF2-ribosome engagement during translocation. FAM86A depletion in LUAD cells causes 80S monosome accumulation and mRNA translation inhibition. FAM86A is overexpressed in LUAD and eEF2K525me3 levels increase through advancing LUAD disease stages. FAM86A knockdown attenuates LUAD cell proliferation and suppression of the FAM86A-eEF2K525me3 axis inhibits cancer cell and patient-derived LUAD xenograft growth in vivo. Finally, FAM86A ablation strongly attenuates tumor growth and extends survival in KRASG12C-driven LUAD mouse models. Thus, our work uncovers an eEF2 methylation-mediated mRNA translation elongation regulatory node and nominates FAM86A as an etiologic agent in LUAD.

AB - eEF2 post-translational modifications (PTMs) can profoundly affect mRNA translation dynamics. However, the physiologic function of eEF2K525 trimethylation (eEF2K525me3), a PTM catalyzed by the enzyme FAM86A, is unknown. Here, we find that FAM86A methylation of eEF2 regulates nascent elongation to promote protein synthesis and lung adenocarcinoma (LUAD) pathogenesis. The principal physiologic substrate of FAM86A is eEF2, with K525me3 modeled to facilitate productive eEF2-ribosome engagement during translocation. FAM86A depletion in LUAD cells causes 80S monosome accumulation and mRNA translation inhibition. FAM86A is overexpressed in LUAD and eEF2K525me3 levels increase through advancing LUAD disease stages. FAM86A knockdown attenuates LUAD cell proliferation and suppression of the FAM86A-eEF2K525me3 axis inhibits cancer cell and patient-derived LUAD xenograft growth in vivo. Finally, FAM86A ablation strongly attenuates tumor growth and extends survival in KRASG12C-driven LUAD mouse models. Thus, our work uncovers an eEF2 methylation-mediated mRNA translation elongation regulatory node and nominates FAM86A as an etiologic agent in LUAD.

KW - cancer

KW - eEF2

KW - elongation

KW - FAM86A

KW - KRAS

KW - lung

KW - lysine methylation

KW - mRNA translation

KW - protein synthesis

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JO - Molecular cell

JF - Molecular cell

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ER -

FAM86A methylation of eEF2 links mRNA translation elongation to tumorigenesis

Abstract

Keywords

ASJC Scopus subject areas

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