Snail precedes Slug in the genetic cascade required for the specification and migration of the Xenopus neural crest

doi:10.1242/dev.00238

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doi: 10.1242/10.1242/dev.00238

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Development 130, 483-494 (2003)
Copyright © 2003 The Company of Biologists Limited

Snail precedes Slug in the genetic cascade required for the specification and migration of the Xenopus neural crest

Manuel J. Aybar¹, M. Angela Nieto² and Roberto Mayor¹^,*

^¹ Millennium Nucleus in Developmental Biology, Facultad de Ciencias, Universidad de Chile, Casilla 653, Santiago, Chile
^² Instituto Cajal, CSIC, Doctor Arce 37, 28002, Madrid, Spain

^* Author for correspondence (e-mail: rmayor{at}uchile.cl)

Accepted 23 October 2002

The complex sequence of inductive events responsible for thegeneration of the neural crest at the border between the neuralplate and the epidermis, triggers a genetic cascade involvingseveral families of transcription factors. Two members of theSnail family, Snail and Slug, have both been implicated in thiscascade. In chick and Xenopus, loss- and gain-of-function experimentshave provided evidence that Slug plays a key role in neuralcrest development. However, in contrast to the chick, Snailrather than Slug is expressed in the premigratory neural crestin the mouse and, in Xenopus, Snail precedes Slug expressionin this population. Thus, in order to study the function ofSnail in neural crest development in Xenopus, we have carriedout conditional gain- and loss-of-function experiments usingdifferent Snail constructs fused to a glucocorticoid receptorelement.

We show that Snail is able to induce the expression of Slugand all other neural crest markers tested (Zic5, FoxD3, Twistand Ets1) at the time of specification. This activation is observedin whole embryos and in animal caps, in the absence of neuralplate and mesodermal markers. We show that Snail is requiredfor neural crest specification and migration and that it worksas a transcriptional repressor. These functions have been previouslyattributed to Slug. However, Slug alone is unable to induceother neural crest markers in animal cap assays, and we showthat Snail and Slug can be functionally equivalent when testedin overexpression studies. This suggests that, in Xenopus embryos,at least some of the functions previously attributed to Slugcan be carried out by Snail. This is additionally supportedby rescue experiments in embryos injected with dominant-negativeconstructs that indicate that Snail lies upstream of Slug inthe genetic cascade leading to neural crest formation and thatit plays a key role in crest development.

Key words: Snail, Slug, Neural crest, Crest specification, Crest migration, Zic5, FoxD3

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