Regulation of Msx genes by a Bmp gradient is essential for neural crest specification

doi:10.1242/dev.00878

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Development ePress online publication date 19 Nov 2003
doi: 10.1242/dev.00878

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Research article

Regulation of Msx genes by a Bmp gradient is essential for neural crest specification

Celeste Tríbulo, Manuel J. Aybar, Vu H. Nguyen, Mary C. Mullins, and Roberto Mayor^*
^* Author for correspondence (e-mail: rmayor{at}uchile.cl)

There is evidence in Xenopus and zebrafish embryos that theneural crest/neural folds are specified at the border of theneural plate by a precise threshold concentration of a Bmp gradient.In order to understand the molecular mechanism by which a gradientof Bmp is able to specify the neural crest, we analyzed howthe expression of Bmp targets, the Msx genes, is regulated andthe role that Msx genes has in neural crest specification.

AsMsx genes are directly downstream of Bmp, we analyzed Msx geneexpression after experimental modification in the level of Bmpactivity by grafting a bead soaked with noggin into Xenopusembryos, by expressing in the ectoderm a dominant-negative Bmp4or Bmp receptor in Xenopus and zebrafish embryos, and also throughBmp pathway component mutants in the zebrafish. All the resultsshow that a reduction in the level of Bmp activity leads toan increase in the expression of Msx genes in the neural plateborder. Interestingly, by reaching different levels of Bmp activityin animal cap ectoderm, we show that a specific concentrationof Bmp induces msx1 expression to a level similar to that requiredto induce neural crest. Our results indicate that an intermediatelevel of Bmp activity specifies the expression of Msx genesin the neural fold region.

In addition, we have analyzed therole that msx1 plays on neural crest specification. As msx1has a role in dorsoventral pattering, we have carried out conditionalgain- and loss-of-function experiments using different msx1constructs fused to a glucocorticoid receptor element to avoidan early effect of this factor. We show that msx1 expressionis able to induce all other early neural crest markers tested(snail, slug, foxd3) at the time of neural crest specification.Furthermore, the expression of a dominant negative of Msx genesleads to the inhibition of all the neural crest markers analyzed.It has been previously shown that snail is one of the earliestgenes acting in the neural crest genetic cascade. In order tostudy the hierarchical relationship between msx1 and snail/slugwe performed several rescue experiments using dominant negativesfor these genes. The rescuing activity by snail and slug onneural crest development of the msx1 dominant negative, togetherwith the inability of msx1 to rescue the dominant negativesof slug and snail strongly argue that msx1 is upstream of snailand slug in the genetic cascade that specifies the neural crestin the ectoderm. We propose a model where a gradient of Bmpactivity specifies the expression of Msx genes in the neuralfolds, and that this expression is essential for the early specificationof the neural crest.

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