Abstract
BackgroundNeural crest progenitors arise as epithelial cells and then undergo a process of epithelial to mesenchymal transition that precedes the generation of cellular motility and subsequent migration. We aim at understanding the underlying molecular network. Along this line, possible roles of Rho GTPases that act as molecular switches to control a variety of signal transduction pathways remain virtually unexplored, as are putative interactions between Rho proteins and additional known components of this cascade.ResultsWe investigated the role of Rho/Rock signaling in neural crest delamination. Active RhoA and RhoB are expressed in the membrane of epithelial progenitors and are downregulated upon delamination. In vivo loss-of-function of RhoA or RhoB or of overall Rho signaling by C3 transferase enhanced and/or triggered premature crest delamination yet had no effect on cell specification. Consistently, treatment of explanted neural primordia with membrane-permeable C3 or with the Rock inhibitor Y27632 both accelerated and enhanced crest emigration without affecting cell proliferation. These treatments altered neural crest morphology by reducing stress fibers, focal adhesions and downregulating membrane-bound N-cadherin. Reciprocally, activation of endogenous Rho by lysophosphatidic acid inhibited emigration while enhancing the above. Since delamination is triggered by BMP and requires G1/S transition, we examined their relationship with Rho. Blocking Rho/Rock function rescued crest emigration upon treatment with noggin or with the G1/S inhibitor mimosine. In the latter condition, cells emigrated while arrested at G1. Conversely, BMP4 was unable to rescue cell emigration when endogenous Rho activity was enhanced by lysophosphatidic acid.ConclusionRho-GTPases, through Rock, act downstream of BMP and of G1/S transition to negatively regulate crest delamination by modifying cytoskeleton assembly and intercellular adhesion.
Highlights
Neural crest progenitors arise as epithelial cells and undergo a process of epithelial to mesenchymal transition that precedes the generation of cellular motility and subsequent migration
Loss of the membrane-bound, active form of RhoA and RhoB is associated with the epithelial-to-mesenchymal transition (EMT) of neural crest (NC) cells RhoA and rhoB transcripts are present in the dorsal neural tube (NT) at stages corresponding to the production and emigraton of NC cells [20,40]
Since we show that Rho activity negatively modulates NC delamination and alters Ncadherin expression, we asked whether Rho/Rho-associated kinase (Rock) signaling are part of the bone morphogenetic protein (BMP)-dependent network leading to NC emigration
Summary
Neural crest progenitors arise as epithelial cells and undergo a process of epithelial to mesenchymal transition that precedes the generation of cellular motility and subsequent migration. The molecular network underlying the generation of cellular movement remains incompletely understood [6,7]. This process involves an epithelial-to-mesenchymal transition (EMT) of the premigratory NC cells residing in the dorsal neural tube (NT) followed by delamination. BMP induces EMT of NC by triggering Wnt transcription The latter promotes G1/S transition, which is a necessary step for delamination of trunk NC [14,21]
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