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A SOX17-PDGFB signaling axis regulates aortic root development

Author

Listed:
  • Pengfei Lu

    (Albert Einstein College of Medicine)

  • Ping Wang

    (Albert Einstein College of Medicine
    Tianjin Medical University)

  • Bingruo Wu

    (Albert Einstein College of Medicine)

  • Yidong Wang

    (Albert Einstein College of Medicine
    Jiaotong University)

  • Yang Liu

    (Albert Einstein College of Medicine)

  • Wei Cheng

    (Albert Einstein College of Medicine)

  • Xuhui Feng

    (Albert Einstein College of Medicine)

  • Xinchun Yuan

    (Albert Einstein College of Medicine
    The First Affiliated Hospital of Nanchang University)

  • Miriam M. Atteya

    (Medical University of South Carolina)

  • Haleigh Ferro

    (Medical University of South Carolina)

  • Yukiko Sugi

    (Medical University of South Carolina)

  • Grant Rydquist

    (Cornell University)

  • Mahdi Esmaily

    (Cornell University)

  • Jonathan T. Butcher

    (Cornell University)

  • Ching-Pin Chang

    (Albert Einstein College of Medicine)

  • Jack Lenz

    (Albert Einstein College of Medicine
    Albert Einstein College of Medicine)

  • Deyou Zheng

    (Albert Einstein College of Medicine
    Albert Einstein College of Medicine)

  • Bin Zhou

    (Albert Einstein College of Medicine
    Albert Einstein College of Medicine)

Abstract

Developmental etiologies causing complex congenital aortic root abnormalities are unknown. Here we show that deletion of Sox17 in aortic root endothelium in mice causes underdeveloped aortic root leading to a bicuspid aortic valve due to the absence of non-coronary leaflet and mispositioned left coronary ostium. The respective defects are associated with reduced proliferation of non-coronary leaflet mesenchyme and aortic root smooth muscle derived from the second heart field cardiomyocytes. Mechanistically, SOX17 occupies a Pdgfb transcriptional enhancer to promote its transcription and Sox17 deletion inhibits the endothelial Pdgfb transcription and PDGFB growth signaling to the non-coronary leaflet mesenchyme. Restoration of PDGFB in aortic root endothelium rescues the non-coronary leaflet and left coronary ostium defects in Sox17 nulls. These data support a SOX17-PDGFB axis underlying aortic root development that is critical for aortic valve and coronary ostium patterning, thereby informing a potential shared disease mechanism for concurrent anomalous aortic valve and coronary arteries.

Suggested Citation

  • Pengfei Lu & Ping Wang & Bingruo Wu & Yidong Wang & Yang Liu & Wei Cheng & Xuhui Feng & Xinchun Yuan & Miriam M. Atteya & Haleigh Ferro & Yukiko Sugi & Grant Rydquist & Mahdi Esmaily & Jonathan T. But, 2022. "A SOX17-PDGFB signaling axis regulates aortic root development," Nature Communications, Nature, vol. 13(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-31815-1
    DOI: 10.1038/s41467-022-31815-1
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    References listed on IDEAS

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    1. Yidong Wang & Bingruo Wu & Pengfei Lu & Donghong Zhang & Brian Wu & Shweta Varshney & Gonzalo Monte-Nieto & Zhenwu Zhuang & Rabab Charafeddine & Adam H. Kramer & Nicolas E. Sibinga & Nikolaos G. Frang, 2017. "Uncontrolled angiogenic precursor expansion causes coronary artery anomalies in mice lacking Pofut1," Nature Communications, Nature, vol. 8(1), pages 1-15, December.
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