Mechanically Sensitive HSF1 is a Key Regulator of Left-right Symmetry Breaking in Zebrafish Embryos

Overview

Journal iScience

Publisher Cell Press

Date 2023 Sep 28

PMID 37766982

Authors

Jing Du

Shu-Kai Li

Liu-Yuan Guan

Zheng Guo

Jiang-Fan Yin

Li Gao

Toru Kawanishi

Atsuko Shimada

Qiu-Ping Zhang

Li-Sha Zheng

Yi-Yao Liu

Xi-Qiao Feng

Lin Zhao

Dong-Yan Chen

Hiroyuki Takeda

Yu-Bo Fan

Affiliations

Soon will be listed here.

Abstract

The left-right symmetry breaking of vertebrate embryos requires nodal flow. However, the molecular mechanisms that mediate the asymmetric gene expression regulation under nodal flow remain elusive. Here, we report that heat shock factor 1 (HSF1) is asymmetrically activated in the Kupffer's vesicle of zebrafish embryos in the presence of nodal flow. Deficiency in HSF1 expression caused a significant and disrupted gene expression asymmetry of nodal signaling proteins in zebrafish embryos. Further studies demonstrated that HSF1 is a mechanosensitive protein. The mechanical sensation ability of HSF1 is conserved in a variety of mechanical stimuli in different cell types. Moreover, cilia and Ca-Akt signaling axis are essential for the activation of HSF1 under mechanical stress and . Considering the conserved expression of HSF1 in organisms, these findings unveil a fundamental mechanism of gene expression regulation by mechanical clues during embryonic development and other physiological and pathological transformations.

Citing Articles

Coronary Artery Disease Risk Variant Dampens the Expression of CALCRL by Reducing HSF Binding to Shear Stress Responsive Enhancer in Endothelial Cells In Vitro.

Selvarajan I, Kiema M, Huang R, Li J, Zhu J, Polonen P Arterioscler Thromb Vasc Biol. 2024; 44(6):1330-1345.

PMID: 38602103 PMC: 11111333. DOI: 10.1161/ATVBAHA.123.318964.

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