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Steimle, Jeffrey D.; Rankin, Scott A.; Slagle, Christopher E.; Bekeny, Jenna; Rydeen, Ariel B.; Chan, Sunny Sun-Kin; Kweon, Junghun; Yang, Xinan H.; Ikegami, Kohta; Nadadur, Rangarajan D.; Rowton, Megan; Hoffmann, Andrew D.; Lazarevic, Sonja; Thomas, William; Boyle Anderson, Erin A. T.; Horb, Marko E.; Luna-Zurita, Luis; Ho, Robert K.; Kyba, Michael; Jensen, Bjarke; Zorn, Aaron M.; Conlon, Frank L.; Moskowitz, Ivan P.

Evolutionarily conserved Tbx5 – Wnt2/2b pathway orchestrates cardiopulmonary development

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  • Medientyp: E-Artikel
  • Titel: Evolutionarily conserved Tbx5 – Wnt2/2b pathway orchestrates cardiopulmonary development
  • Beteiligte: Steimle, Jeffrey D.; Rankin, Scott A.; Slagle, Christopher E.; Bekeny, Jenna; Rydeen, Ariel B.; Chan, Sunny Sun-Kin; Kweon, Junghun; Yang, Xinan H.; Ikegami, Kohta; Nadadur, Rangarajan D.; Rowton, Megan; Hoffmann, Andrew D.; Lazarevic, Sonja; Thomas, William; Boyle Anderson, Erin A. T.; Horb, Marko E.; Luna-Zurita, Luis; Ho, Robert K.; Kyba, Michael; Jensen, Bjarke; Zorn, Aaron M.; Conlon, Frank L.; Moskowitz, Ivan P.
  • Erschienen: Proceedings of the National Academy of Sciences, 2018
  • Erschienen in: Proceedings of the National Academy of Sciences
  • Sprache: Englisch
  • DOI: 10.1073/pnas.1811624115
  • ISSN: 0027-8424; 1091-6490
  • Entstehung:
  • Anmerkungen:
  • Beschreibung: <jats:p> Codevelopment of the lungs and heart underlies key evolutionary innovations in the transition to terrestrial life. Cardiac specializations that support pulmonary circulation, including the atrial septum, are generated by second heart field (SHF) cardiopulmonary progenitors (CPPs). It has been presumed that transcription factors required in the SHF for cardiac septation, e.g., <jats:italic>Tbx5</jats:italic> , directly drive a cardiac morphogenesis gene-regulatory network. Here, we report instead that TBX5 directly drives Wnt ligands to initiate a bidirectional signaling loop between cardiopulmonary mesoderm and the foregut endoderm for endodermal pulmonary specification and, subsequently, atrial septation. We show that <jats:italic>Tbx5</jats:italic> is required for pulmonary specification in mice and amphibians but not for swim bladder development in zebrafish. TBX5 is non–cell-autonomously required for pulmonary endoderm specification by directly driving <jats:italic>Wnt2</jats:italic> and <jats:italic>Wnt2b</jats:italic> expression in cardiopulmonary mesoderm. TBX5 ChIP-sequencing identified <jats:italic>cis</jats:italic> -regulatory elements at <jats:italic>Wnt2</jats:italic> sufficient for endogenous <jats:italic>Wnt2</jats:italic> expression domains in vivo and required for <jats:italic>Wnt2</jats:italic> expression in precardiac mesoderm in vitro. <jats:italic>Tbx5</jats:italic> cooperated with Shh signaling to drive <jats:italic>Wnt2b</jats:italic> expression for lung morphogenesis. <jats:italic>Tbx5</jats:italic> haploinsufficiency in mice, a model of Holt–Oram syndrome, caused a quantitative decrement of mesodermal-to-endodermal Wnt signaling and subsequent endodermal-to-mesodermal Shh signaling required for cardiac morphogenesis. Thus, <jats:italic>Tbx5</jats:italic> initiates a mesoderm–endoderm–mesoderm signaling loop in lunged vertebrates that provides a molecular basis for the coevolution of pulmonary and cardiac structures required for terrestrial life. </jats:p>
  • Zugangsstatus: Freier Zugang