Id proteins are negative regulators of basic helix-loop-helix gene products and participate in many developmental processes. We have evaluated the expression of Id2 in the developing chick heart and found expression in the cardiac neural crest, secondary heart field, outflow tract, inflow tract, and anterior parasympathetic plexus. Cardiac neural crest ablation in the chick embryo, which causes structural defects of the cardiac outflow tract, results in a significant loss of Id2 expression in the outflow tract. Id2 is also expressed in Xenopus neural folds, branchial arches, cardiac outflow tract, inflow tract, and splanchnic mesoderm. Ablation of the premigratory neural crest in Xenopus embryos results in abnormal formation of the heart and a loss of Id2 expression in the heart and splanchnic mesoderm. This data suggests that the presence of neural crest is required for normal Id2 expression in both chick and Xenopus heart development and provides evidence that neural crest is involved in heart development in Xenopus embryos.
The invasion of the cardiac neural crest (CNC) into the outflow tract (OFT) and subsequent OFT septation are critical events during vertebrate heart development. We previously had performed four modified differential display (DD) screens in the chick embryo to identify genes that may be involved in CNC and heart development. Full-length sequence of one of the DD clones has been obtained and identified as chick PINCH-1. This particularly interesting new cysteine-histidine-rich protein contains five protein-binding LIM domains (five double zinc fingers), a nuclear localization signal, and a nuclear export signal, allowing it to participate in integrin and growth factor signaling and possibly act as a transcription factor. We show here for the first time that chick PINCH-1 is expressed in neural crest cells, both in the neural fold and cardiac OFT, and is also expressed in mesoderm derived-structures, including the myocardium, during avian embryogenesis. The normal expression pattern and overexpression in neural crest cell explants suggest that PINCH-1 may be a regulator of neural crest cell adhesion and migration. Developmental Dynamics 235:152-162, 2006.
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