Abstract
Wnt signaling is crucial for the regulation of numerous processes in development. Consistent with this, the gene families for both the ligands (Wnts) and receptors (Frizzleds) are very large. Surprisingly, while we have a reasonable understanding of the Wnt ligands likely to mediate specific Wnt-dependent processes, the corresponding receptors usually remain to be elucidated. Taking advantage of the zebrafish model's excellent genomic and genetic properties, we undertook a comprehensive analysis of the expression patterns of frizzled (fzd) genes in zebrafish. To explore their functions, we focused on testing their requirement in several developmental events known to be regulated by Wnt signaling, convergent extension movements of gastrulation, neural crest induction, and melanocyte specification. We found fourteen distinct fzd genes in the zebrafish genome. Systematic analysis of their expression patterns between 1-somite and 30 hours post-fertilization revealed complex, dynamic and overlapping expression patterns. This analysis demonstrated that only fzd3a, fzd9b, and fzd10 are expressed in the dorsal neural tube at stages corresponding to the timing of melanocyte specification. Surprisingly, however, morpholino knockdown of these, alone or in combination, gave no indication of reduction of melanocytes, suggesting the important involvement of untested fzds or another type of Wnt receptor in this process. Likewise, we found only fzd7b and fzd10 expressed at the border of the neural plate at stages appropriate for neural crest induction. However, neural crest markers were not reduced by knockdown of these receptors. Instead, these morpholino knockdown studies showed that fzd7a and fzd7b work co-operatively to regulate convergent extension movement during gastrulation. Furthermore, we show that the two fzd7 genes function together with fzd10 to regulate epiboly movements and mesoderm differentiation.
Highlights
During development a small number of types of signaling factors are utilized repeatedly to allow this complex and beautiful process to unfold
We chose to focus functionally on three important developmental roles of Wnt signaling, which we explored as test cases; melanocyte specification, neural crest cells (NCCs) induction and convergent extension (CE) movements during gastrulation
Using the full coding sequence of reported fzds or cDNA sequences corresponding to their cysteine rich domain (CRD) when full coding sequence was not available, we screened for fzd-related genes in the zebrafish genomic DNA database in Ensembl (Zv8); a repeat of this procedure in the Zv9 release of the zebrafish genome identified the same genes
Summary
During development a small number of types of signaling factors are utilized repeatedly to allow this complex and beautiful process to unfold. These signals are usually transduced by members of an small number of receptor molecule families, raising major questions as to how distinct responses can be generated by the same limited number of signals, and in what ways signals generated by individual members of the receptor families may be different. Our knowledge of the expression patterns and functions of the fzd gene family remains limited to only a small subset of genes and of developmental roles [9,10]. We wanted to carry out a comprehensive analysis of fzd gene expression patterns with respect to some of the early developmental roles for Wnt signaling
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