Dina C. Myers scite author profile

Mutations in the zebrafish knypek locus impair gastrulation movements of convergent extension that narrow embryonic body and elongate it from head to tail. We demonstrate that knypek regulates cellular movements but not cell fate specification. Convergent extension movement defects in knypek are associated with abnormal cell polarity, as mutant cells fail to elongate and align medio-laterally. Positional cloning reveals that knypek encodes a member of the glypican family of heparan sulfate proteoglycans. Double mutant and overexpression analyses show that Knypek potentiates Wnt11 signaling, mediating convergent extension. These studies provide experimental and genetic evidence that glypican Knypek acts during vertebrate gastrulation as a positive modulator of noncanonical Wnt signaling to establish polarized cell behaviors underlying convergent extension movements.

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Bmp Activity Gradient Regulates Convergent Extension during Zebrafish Gastrulation

Myers

Sepich

Solnica‐Krezel

2002

Developmental Biology

180

189

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During vertebrate gastrulation, a ventral to dorsal gradient of bone morphogenetic protein (Bmp) activity establishes cell fates. Concomitantly, convergent extension movements narrow germ layers mediolaterally while lengthening them anteroposteriorly. Here, by measuring movements of cell populations in vivo, we reveal the presence of three domains of convergent extension movements in zebrafish gastrula. Ventrally, convergence and extension movements are absent. Lateral cell populations converge and extend at increasing speed until they reach the dorsal domain where convergence speed slows but extension remains strong. Using dorsalized and ventralized mutants, we demonstrate that these domains are specified by the Bmp activity gradient. In vivo cell morphology and behavior analyses indicated that low levels of Bmp activity might promote extension with little convergence by allowing mediolateral cell elongation and dorsally biased intercalation. Further, single cell movement analyses revealed that the high ventral levels of Bmp activity promote epibolic migration of cells into the tailbud, increasing tail formation at the expense of head and trunk. We show that high Bmp activity limits convergence and extension by negatively regulating expression of the wnt11 (silberblick) and wnt5a (pipetail) genes, which are required for convergent extension but not cell fate specification. Therefore, during vertebrate gastrulation, a single gradient of Bmp activity, which specifies cell fates, also regulates the morphogenetic process of convergent extension.

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Convergence and extension in vertebrate gastrulae: cell movements according to or in search of identity?

2002

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Alk3/Bmpr1a Receptor Is Required for Development of the Atrioventricular Canal Into Valves and Annulus Fibrosus

Gaussin

Morley

Cox

et al. 2005

Circulation Research

138

107

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Abstract-Endocardial cushions are precursors of mature atrioventricular (AV) valves. Their formation is induced by signaling molecules originating from the AV myocardium, including bone morphogenetic proteins (BMPs). Here, we hypothesized that BMP signaling plays an important role in the AV myocardium during the maturation of AV valves from the cushions. To test our hypothesis, we used a unique Cre/lox system to target the deletion of a floxed Alk3 allele, the type IA receptor for BMPs, to cardiac myocytes of the AV canal (AVC). Lineage analysis indicated that cardiac myocytes of the AVC contributed to the tricuspid mural and posterior leaflets, the mitral septal leaflet, and the atrial border of the annulus fibrosus. When Alk3 was deleted in these cells, defects were seen in the same leaflets, ie, the tricuspid mural leaflet and mitral septal leaflet were longer, the tricuspid posterior leaflet was displaced and adherent to the ventricular wall, and the annulus fibrosus was disrupted resulting in ventricular preexcitation. The defects seen in mice with AVC-targeted deletion of Alk3 provide strong support for a role of Alk3 in human congenital heart diseases, such as Ebstein's anomaly. In conclusion, our mouse model demonstrated critical roles for Alk3 signaling in the AV myocardium during the development of AV valves and the annulus fibrosus. Key Words: bone morphogenetic protein signaling Ⅲ heart development Ⅲ atrioventricular canal Ⅲ Cre-lox system I n humans, abnormalities in atrioventricular (AV) valves are among the most frequent congenital heart defects, 1 which reflects the complexity of the mechanisms regulating the development of the valvular apparatus. In mouse embryos, the first visible manifestation of this process is the formation of endocardial cushions in the AV canal (AVC) around E9.5 ( Figure 1A). This is a well-documented event that requires inducting signaling by the adjacent AV myocardium. [2][3][4][5][6] Recent lineage studies showed that mature AV valves are formed almost entirely from these endocardial cushions. 7,8 Interestingly, however, these cushions remain in contact with the AV myocardium throughout leaflet formation. Indeed, the mural leaflets of both AV valves are supported by AV myocardium at their ventricular side (Figure 1A). This myocardium remains as late as E17.5 when it is removed by apoptosis. 7 The septal leaflet of the tricupsid valve remains in contact with the septum ( Figure 1A) until E17.5 when it delaminates. 7 The mitral septal leaflet is never supported by myocardium at its ventricular side ( Figure 1A), but is in contact with the AV myocardium-derived mitral gully at its anterior and posterior margins (anterior and posterior in reference to the heart correspond to cranial and caudal in respect to the body). 7 The fact that the AV myocardium remains in contact with the developing leaflets suggests that it plays a role during valvular morphogenesis in addition to its original inductive role in cushion formation.Signaling molecules originating from the AV myocar...

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Role of the zebrafishtrilobite locus in gastrulation movements of convergence and extension

Sepich

Myers

Short

et al. 2000

genesis

106

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Convergence and extension are gastrulation movements that participate in the establishment of the vertebrate body plan. Using new methods for quantifying convergence and extension movements of cell groups, we demonstrate that in wild-type embryos, dorsal convergence of lateral cells is initially slow, but speeds up between the end of the gastrula period and early segmentation. Convergence and extension movements of lateral cells in trilobite mutants are normal during the gastrula period but reduced by early segmentation. Morphometric studies revealed that during epiboly wild-type gastrulae become ovoid, whereas trilobite embryos remain rounder. By segmentation, trilobite embryos exhibit shorter, broader embryonic axes. The timing of these morphological defects correlates well with impaired cell movements, suggesting reduced convergence and extension are the main defects underlying the trilobite phenotype. Our gene expression, genetic, and fate mapping analyses show the trilobite mutation affects movements without altering dorsoventral patterning or cell fates. We propose that trilobite function is required for cell properties that promote increased speed of converging cells and extension movements in the dorsal regions of the zebrafish gastrula.

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Dina C. Myers

The Zebrafish Glypican Knypek Controls Cell Polarity during Gastrulation Movements of Convergent Extension

Bmp Activity Gradient Regulates Convergent Extension during Zebrafish Gastrulation

Convergence and extension in vertebrate gastrulae: cell movements according to or in search of identity?

Alk3/Bmpr1a Receptor Is Required for Development of the Atrioventricular Canal Into Valves and Annulus Fibrosus

Role of the zebrafishtrilobite locus in gastrulation movements of convergence and extension

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