Preprint / Version 1

Shear stress-induced Piezo1 activates CD99L2 to facilitate the initiation of blood circulation

This article is a preprint and has not been certified by peer review.

Authors

    Jingao Lu,  
    Jingao Lu
    Jun Zhao,  
    Jun Zhao
    Xin Tang,  
    Xin Tang
    Ente Zhu,  
    Ente Zhu
    Jin Xu,  
    Jin Xu
    Xiaohui Chen,  
    Xiaohui Chen
    Qiang Wang,  
    Qiang Wang
    Zhibin Huang,   Ning Ma,  
    Ning Ma
    Wending Zhang,  
    Wending Zhang
    Wei Liu
    Wei Liu
Categories
Developmental Biology & Anatomy
Keywords
CD99L2; Piezo1; circulation initiation; erythrocyte adhesion; shear stress; hemolytic anemia

Abstract

The onset of blood circulation is a pivotal developmental event, yet the molecular mechanisms that enable erythrocytes to disengage from the endothelium and enter the bloodstream remain unclear. Here, we identify CD99L2 as a mechanoresponsive adhesion regulator, transiently induced in primitive erythrocytes by shear stress–activated Piezo1 signaling. Using zebrafish and mouse models, we show that CD99L2 is essential for erythrocyte de-adhesion and circulation entry. Loss of CD99L2 leads to aberrant nuclear translocation of β-catenin, activation of Rap1 signaling, and persistent expression of adhesion molecules, culminating in erythrocyte retention, impaired maturation, and hemolytic anemia. Mechanistically, CD99L2 binds and anchors β-catenin at the membrane, and shear-induced Piezo1 activation promotes its expression during a narrow developmental window. This pathway is conserved in mice and modulated by biomechanical forces, unveiling a mechanism that couples hemodynamic force to erythrocyte adhesion control during the initiation of blood flow.

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Views: 112
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DOI:

https://doi.org/10.65215/LTSpreprints.2026.03.02.000148

Submission ID:

148

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Posted

2026-03-02

How to Cite

Lu, J., Zhao, J., Tang, X., Zhu, E., Xu, J., Chen, X., Wang, Q., Huang, Z., Ma, N., Zhang, W., & Liu, W. (2026). Shear stress-induced Piezo1 activates CD99L2 to facilitate the initiation of blood circulation. LangTaoSha Preprint Server. https://doi.org/10.65215/LTSpreprints.2026.03.02.000148

Declaration of Competing Interests

The authors declare no competing interests to disclose.

Copyright

The copyright holder for this preprint is the author/funder.

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.