Bidirectional Histone Monoaminylation Dynamics Regulate Neural Rhythmicity

Overview

Journal Nature

Date 2025 Jan 8

PMID 39779849

Authors

Qingfei Zheng

Benjamin H Weekley

David A Vinson

Shuai Zhao

Ryan M Bastle

Robert E Thompson

Stephanie Stransky

Aarthi Ramakrishnan

Ashley M Cunningham

Sohini Dutta

Jennifer C Chan

Giuseppina Di Salvo

Min Chen

Nan Zhang

Jinghua Wu

Sasha L Fulton

Lingchun Kong

Haifeng Wang

Baichao Zhang

Lauren Vostal

Akhil Upad

Lauren Dierdorff

Li Shen

Henrik Molina

Simone Sidoli

Tom W Muir

Haitao Li

Yael David

Ian Maze

Affiliations

Soon will be listed here.

Abstract

Histone H3 monoaminylations at Gln5 represent an important family of epigenetic marks in brain that have critical roles in permissive gene expression. We previously demonstrated that serotonylation and dopaminylation of Gln5 of histone H3 (H3Q5ser and H3Q5dop, respectively) are catalysed by transglutaminase 2 (TG2), and alter both local and global chromatin states. Here we found that TG2 additionally functions as an eraser and exchanger of H3 monoaminylations, including H3Q5 histaminylation (H3Q5his), which displays diurnally rhythmic expression in brain and contributes to circadian gene expression and behaviour. We found that H3Q5his, in contrast to H3Q5ser, inhibits the binding of WDR5, a core member of histone H3 Lys4 (H3K4) methyltransferase complexes, thereby antagonizing methyltransferase activities on H3K4. Taken together, these data elucidate a mechanism through which a single chromatin regulatory enzyme has the ability to sense chemical microenvironments to affect the epigenetic states of cells, the dynamics of which have critical roles in the regulation of neural rhythmicity.

Citing Articles

Histone monoaminylation is a novel epigenetic mechanism in psychiatric disorders.

Peedicayil J, Santhosh S Front Mol Neurosci. 2025; 18:1534569.

PMID: 40041043 PMC: 11876413. DOI: 10.3389/fnmol.2025.1534569.

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