<p>How adhesion G protein-coupled receptors (aGPCRs) control development remains unclear. aGPCR Adgrg6/Gpr126 has been associated with heart trabeculation. Defects in this process cause cardiomyopathies and cardiac dysfunction. How cardiomyocytes attain trabecular identity is poorly understood. Here, we show that different domains of Gpr126 distinctly regulate compact wall integrity and trabecular identity. Maternal zygotic (MZ) <i>gpr126</i><sup><i>stl47</i></sup> early truncation mutants exhibit hypotrabeculation, whereby N-cadherin distributes randomly along apical/basal/lateral membranes of compact layer cardiomyocytes. In contrast, zygotic and MZ <i>gpr126</i><sup><i>st49</i></sup> mutants, expressing a N-terminal fragment lacking the GPS motif (NTF<sup>ΔGPS</sup>), exhibit a multilayered ventricular wall containing polarized cardiomyocytes with normal N-cadherin localization and increased Notch activity. Notably, endocardially expressed gpr126 C-terminal fragment (CTF) reinstates trabeculation in <i>gpr126</i><sup><i>st49</i></sup> mutants. Collectively, our data reveal domain-specific roles of Gpr126 during trabeculation, whereby the NTF is required for maintaining cell-cell adhesion and compact wall integrity, whereas the CTF is essential to provide trabecular identity.</p>

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Adgrg6/Gpr126 is required for compact wall integrity and establishing trabecular identity during cardiac trabeculation

  • Swati Srivastava,
  • Felix Gunawan,
  • Silvia Vergarajauregui,
  • Alessandra Gentile,
  • Miriam Angeloni,
  • Sarah C. Petersen,
  • Stefan Günther,
  • Fulvia Ferrazzi,
  • Didier Y. R. Stainier,
  • Felix B. Engel

摘要

How adhesion G protein-coupled receptors (aGPCRs) control development remains unclear. aGPCR Adgrg6/Gpr126 has been associated with heart trabeculation. Defects in this process cause cardiomyopathies and cardiac dysfunction. How cardiomyocytes attain trabecular identity is poorly understood. Here, we show that different domains of Gpr126 distinctly regulate compact wall integrity and trabecular identity. Maternal zygotic (MZ) gpr126stl47 early truncation mutants exhibit hypotrabeculation, whereby N-cadherin distributes randomly along apical/basal/lateral membranes of compact layer cardiomyocytes. In contrast, zygotic and MZ gpr126st49 mutants, expressing a N-terminal fragment lacking the GPS motif (NTFΔGPS), exhibit a multilayered ventricular wall containing polarized cardiomyocytes with normal N-cadherin localization and increased Notch activity. Notably, endocardially expressed gpr126 C-terminal fragment (CTF) reinstates trabeculation in gpr126st49 mutants. Collectively, our data reveal domain-specific roles of Gpr126 during trabeculation, whereby the NTF is required for maintaining cell-cell adhesion and compact wall integrity, whereas the CTF is essential to provide trabecular identity.