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Cellular and molecular landscape of mammalian sinoatrial node revealed by single-cell RNA sequencing

Author

Listed:
  • Dandan Liang

    (Tongji University School of Medicine
    Tongji University School of Medicine
    Tongji University)

  • Jinfeng Xue

    (Tongji University School of Medicine)

  • Li Geng

    (Tongji University School of Medicine
    Tongji University School of Medicine
    Tongji University)

  • Liping Zhou

    (Tongji University School of Medicine
    Tongji University School of Medicine
    Tongji University)

  • Bo Lv

    (Tongji University School of Medicine)

  • Qiao Zeng

    (Tongji University School of Medicine)

  • Ke Xiong

    (Tongji University School of Medicine
    Tongji University School of Medicine
    Tongji University)

  • Huixing Zhou

    (Tongji University School of Medicine
    Tongji University School of Medicine
    Tongji University)

  • Duanyang Xie

    (Tongji University School of Medicine
    Tongji University School of Medicine
    Tongji University)

  • Fulei Zhang

    (Tongji University School of Medicine
    Tongji University School of Medicine
    Tongji University)

  • Jie Liu

    (Tongji University School of Medicine)

  • Yi Liu

    (Tongji University School of Medicine
    Tongji University School of Medicine
    Tongji University)

  • Li Li

    (Tongji University School of Medicine
    Tongji University
    Tongji University School of Medicine)

  • Jian Yang

    (Tongji University School of Medicine
    Tongji University
    Tongji University School of Medicine)

  • Zhigang Xue

    (Tongji University School of Medicine
    Tongji University School of Medicine)

  • Yi-Han Chen

    (Tongji University School of Medicine
    Tongji University School of Medicine
    Tongji University
    Tongji University School of Medicine)

Abstract

Bioelectrical impulses intrinsically generated within the sinoatrial node (SAN) trigger the contraction of the heart in mammals. Though discovered over a century ago, the molecular and cellular features of the SAN that underpin its critical function in the heart are uncharted territory. Here, we identify four distinct transcriptional clusters by single-cell RNA sequencing in the mouse SAN. Functional analysis of differentially expressed genes identifies a core cell cluster enriched in the electrogenic genes. The similar cellular features are also observed in the SAN from both rabbit and cynomolgus monkey. Notably, Vsnl1, a core cell cluster marker in mouse, is abundantly expressed in SAN, but is barely detectable in atrium or ventricle, suggesting that Vsnl1 is a potential SAN marker. Importantly, deficiency of Vsnl1 not only reduces the beating rate of human induced pluripotent stem cell - derived cardiomyocytes (hiPSC-CMs) but also the heart rate of mice. Furthermore, weighted gene co-expression network analysis (WGCNA) unveiled the core gene regulation network governing the function of the SAN in mice. Overall, these findings reveal the whole transcriptome profiling of the SAN at single-cell resolution, representing an advance toward understanding of both the biology and the pathology of SAN.

Suggested Citation

  • Dandan Liang & Jinfeng Xue & Li Geng & Liping Zhou & Bo Lv & Qiao Zeng & Ke Xiong & Huixing Zhou & Duanyang Xie & Fulei Zhang & Jie Liu & Yi Liu & Li Li & Jian Yang & Zhigang Xue & Yi-Han Chen, 2021. "Cellular and molecular landscape of mammalian sinoatrial node revealed by single-cell RNA sequencing," Nature Communications, Nature, vol. 12(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-020-20448-x
    DOI: 10.1038/s41467-020-20448-x
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    Cited by:

    1. Yena Oh & Rimshah Abid & Saif Dababneh & Marwan Bakr & Termeh Aslani & David P. Cook & Barbara C. Vanderhyden & Jin G. Park & Nikhil V. Munshi & Chi-Chung Hui & Kyoung-Han Kim, 2024. "Transcriptional regulation of the postnatal cardiac conduction system heterogeneity," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
    2. Pablo Gómez-del Arco & Joan Isern & Daniel Jimenez-Carretero & Dolores López-Maderuelo & Rebeca Piñeiro-Sabarís & Fadoua El Abdellaoui-Soussi & Carlos Torroja & María Linarejos Vera-Pedrosa & Mercedes, 2024. "The G4 resolvase Dhx36 modulates cardiomyocyte differentiation and ventricular conduction system development," Nature Communications, Nature, vol. 15(1), pages 1-20, December.
    3. Tianyi Sun & Alexander Grassam-Rowe & Zhaoli Pu & Yangpeng Li & Huiying Ren & Yanru An & Xinyu Guo & Wei Hu & Ying Liu & Yuqing Zheng & Zhu Liu & Kun Kou & Xianhong Ou & Tangting Chen & Xuehui Fan & Y, 2023. "Dbh+ catecholaminergic cardiomyocytes contribute to the structure and function of the cardiac conduction system in murine heart," Nature Communications, Nature, vol. 14(1), pages 1-23, December.
    4. Urban Lendahl & Lars Muhl & Christer Betsholtz, 2022. "Identification, discrimination and heterogeneity of fibroblasts," Nature Communications, Nature, vol. 13(1), pages 1-14, December.

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