The endothelin/endothelin receptor system plays a critical role in the differentiation and terminal migration of particular neural crest cell subpopulations. Targeted deletion of the G-protein-coupled endothelin receptors ET(A) and ET(B) was shown to result in characteristic developmental defects of derivatives of cephalic and cardiac neural crest and of neural crest-derived melanocytes and enteric neurons, respectively. Since both endothelin receptors are coupled to G-proteins of the G(q)/G(11)- and G(12)/G(13)-families, we generated mouse lines lacking Galpha(q)/Galpha(11) or Galpha(12)/Galpha(13) in neural crest cells to study their roles in neural crest development. Mice lacking Galpha(q)/Galpha(11) in a neural crest cell-specific manner had craniofacial defects similar to those observed in mice lacking the ET(A) receptor or endothelin-1 (ET-1). However, in contrast to ET-1/ET(A) mutant animals, cardiac outflow tract morphology was intact. Surprisingly, neither Galpha(q)/Galpha(11)- nor Galpha(12)/Galpha(13)-deficient mice showed developmental defects seen in animals lacking either the ET(B) receptor or its ligand endothelin-3 (ET-3). Interestingly, Galpha(12)/Galpha(13) deficiency in neural crest cell-derived cardiac cells resulted in characteristic cardiac malformations. Our data show that G(q)/G(11)- but not G(12)/G(13)-mediated signaling processes mediate ET-1/ET(A)-dependent development of the cephalic neural crest. In contrast, ET-3/ET(B)-mediated development of neural crest-derived melanocytes and enteric neurons appears to involve G-proteins different from G(q)/G(11)/G(12)/G(13).
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