Nodal Morphogens
Abstract
Nodal signals belong to the TGF-β superfamily and are essential for the induction of mesoderm and endoderm and the determination of the left–right axis. Nodal signals can act as morphogens—they have concentration-dependent effects and can act at a distance from their source of production. Nodal and its feedback inhibitor Lefty form an activator/inhibitor pair that behaves similarly to postulated reaction–diffusion models of tissue patterning. Nodal morphogen activity is also regulated by microRNAs, convertases, TGF-β signals, coreceptors, and trafficking factors. This article describes how Nodal morphogens pattern embryonic fields and discusses how Nodal morphogen signaling is modulated.
In his 1901 book “Regeneration,” Thomas Hunt Morgan speculated that “if we suppose the materials or structures that are characteristic of the vegetative half are gradually distributed from the vegetative to the animal half in decreasing amounts, then any piece of the egg will contain more of these things at one pole than the other” and “gastrulation depends on the relative amounts of the materials in the different parts of the blastula” (Morgan 1901). Although Morgan’s speculations referred to the sea urchin embryo, they foretold our current understanding of morphogen gradients in frog and fish development. Morgan’s “materials,” “structures,” and “things” are the Nodal signals that create a vegetal-to-animal activity gradient to regulate germ layer formation and patterning. This article discusses how Nodal signaling provides positional information to fields of cells. I first portray the components of the signaling pathway and describe the role of Nodal signals in mesendoderm induction and left–right axis specification. I then discuss how Nodal morphogen gradients are thought to be generated, modulated, and interpreted.
ACKOWLEDGMENTS
I thank Daniel Constam, Susan Mango, Michael Shen, Will Talbot, and members of my lab for comments on the manuscript, and the NIH, McKnight Endowment Fund for Neuroscience, American Heart Association, Irma T. Hirschl Fund, HFSP, Skirball Institute of New York University Medical Center, and Harvard University for past and current support.
Footnotes
Editors: James Briscoe, Peter Lawrence, and Jean-Paul Vincent
Additional Perspectives on Generation and Interpretation of Morphogen Gradients available at www.cshperspectives.org