Journal article
S1pr2/Gα13 signaling controls myocardial migration by regulating endoderm convergence
Development (Cambridge), Vol.140(4), pp.789-799
02/15/2013
DOI: 10.1242/dev.085340
PMCID: PMC3557776
PMID: 23318642
Abstract
A key process during vertebrate heart development is the migration of bilateral populations of myocardial precursors towards the midline to form the primitive heart tube. In zebrafish, signaling mediated by sphingosine-1-phosphate (S1P) and its cognate G protein-coupled receptor (S1pr2/Mil) is essential for myocardial migration, but the underlying mechanisms remain undefined. Here, we show that suppression of Gα
13
signaling disrupts myocardial migration, leading to the formation of two bilaterally located hearts (cardia bifida). Genetic studies indicate that Gα
13
acts downstream of S1pr2 to regulate myocardial migration through a RhoGEF-dependent pathway. Furthermore, disrupting any component of the S1pr2/Gα
13
/RhoGEF pathway impairs endoderm convergence during segmentation, and the endodermal defects correlate with the extent of cardia bifida. Moreover, endoderm transplantation reveals that the presence of wild-type anterior endodermal cells in Gα
13
-deficient embryos is sufficient to rescue the endoderm convergence defect and cardia bifida, and, conversely, that the presence of anterior endodermal cells defective for S1pr2 or Gα
13
in wild-type embryos causes such defects. Thus, S1pr2/Gα
13
signaling probably acts in the endoderm to regulate myocardial migration. In support of this notion, cardiac-specific expression of Gα
13
fails to rescue cardia bifida in the context of global Gα
13
inhibition. Our data demonstrate for the first time that the Gα
13
/RhoGEF-dependent pathway functions downstream of S1pr2 to regulate convergent movement of the endoderm, an event that is crucial for coordinating myocardial migration.
Details
- Title: Subtitle
- S1pr2/Gα13 signaling controls myocardial migration by regulating endoderm convergence
- Creators
- Ding YeFang Lin
- Resource Type
- Journal article
- Publication Details
- Development (Cambridge), Vol.140(4), pp.789-799
- DOI
- 10.1242/dev.085340
- PMID
- 23318642
- PMCID
- PMC3557776
- NLM abbreviation
- Development
- ISSN
- 0950-1991
- eISSN
- 1477-9129
- Publisher
- Company of Biologists
- Language
- English
- Date published
- 02/15/2013
- Academic Unit
- Anatomy and Cell Biology; Craniofacial Anomalies Research Center
- Record Identifier
- 9984025435702771
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