Smad5 is essential for left-right asymmetry in mice
- PMID: 10677256
- DOI: 10.1006/dbio.1999.9594
Smad5 is essential for left-right asymmetry in mice
Abstract
Left-right (L-R) asymmetry of the vertebrate body plan is established from an originally morphologically symmetric embryo. Recent studies have implicated several TGF-beta family signaling proteins (i.e., nodal, lefty-1, lefty-2, activin receptor type IIB, and Smad2) in L-R axis determination in the mouse. However, the genetic pathways underlying L-R patterning are still unclear. Smad5 is a downstream component in the TGF-beta family signaling cascade, and lack of Smad5 results in embryonic lethality between E9.5 and E11.5. In this report, we demonstrate that Smad5 mutant embryos have defects in heart looping and embryonic turning which are the first signs of L-R asymmetry in mice. To gain more insights into the molecular basis of the laterality defects in the Smad5-deficient embryos, we examined the expression of lefty-1, lefty-2, nodal, and Pitx2 since the asymmetric expression of these genes always closely correlates with the direction of heart looping and embryonic turning. In the absence of Smad5, lefty-1 was expressed at very low or undetectable levels, while nodal, lefty-2, and Pitx2 were expressed bilaterally. These data suggest that Smad5 is upstream of lefty-1, nodal, and lefty-2, and as a consequence also of Pitx2, and Smad5 is essential for L-R axis determination.
Copyright 2000 Academic Press.
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