CKI@?/discs overgrown Promotes Both Wnt-Fz/@b-Catenin and Fz/PCP [A short communication from: Current Biology
Description
This digital document is a journal article from Current Biology, published by Elsevier in 2006. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.
Abstract:
The related Wnt-Frizzled(Fz)/@b-catenin and Fz/planar cell polarity (PCP) pathways are essential for the regulation of numerous developmental processes and are deregulated in many human diseases. Both pathways require members of the Dishevelled (Dsh or Dvl) family of cytoplasmic factors for signal transduction downstream of the Fz receptors. Dsh family members have been studied extensively, but their activation and regulation remains largely unknown. In particular, very little is known about how Dsh differentially signals to the two pathways. Recent work in cell culture has suggested that phosphorylation of Dsh by Casein Kinase I epsilon (CKI@?) may act as a molecular ''switch,'' promoting Wnt/@b-catenin while inhibiting Fz/PCP signaling [1]. Here, we demonstrate in vivo in Drosophila through a series of loss-of-function and coexpression assays that CKI@? acts positively for signaling in both pathways, rather than as a switch. Our data suggest that the kinase activity of CKI@? is required for peak levels of Wnt/@b-catenin signaling. In contrast, CKI@? is a mandatory signaling factor in the Fz/PCP pathway, possibly through a kinase-independent mechanism. Furthermore, we have identified the primary kinase target residue of CKI@? on Dsh. Thus, our data suggest that CKI@? modulates Wnt/@b-catenin and Fz/PCP signaling pathways via kinase-dependent and -independent mechanisms.
Abstract:
The related Wnt-Frizzled(Fz)/@b-catenin and Fz/planar cell polarity (PCP) pathways are essential for the regulation of numerous developmental processes and are deregulated in many human diseases. Both pathways require members of the Dishevelled (Dsh or Dvl) family of cytoplasmic factors for signal transduction downstream of the Fz receptors. Dsh family members have been studied extensively, but their activation and regulation remains largely unknown. In particular, very little is known about how Dsh differentially signals to the two pathways. Recent work in cell culture has suggested that phosphorylation of Dsh by Casein Kinase I epsilon (CKI@?) may act as a molecular ''switch,'' promoting Wnt/@b-catenin while inhibiting Fz/PCP signaling [1]. Here, we demonstrate in vivo in Drosophila through a series of loss-of-function and coexpression assays that CKI@? acts positively for signaling in both pathways, rather than as a switch. Our data suggest that the kinase activity of CKI@? is required for peak levels of Wnt/@b-catenin signaling. In contrast, CKI@? is a mandatory signaling factor in the Fz/PCP pathway, possibly through a kinase-independent mechanism. Furthermore, we have identified the primary kinase target residue of CKI@? on Dsh. Thus, our data suggest that CKI@? modulates Wnt/@b-catenin and Fz/PCP signaling pathways via kinase-dependent and -independent mechanisms.
