Abstract
Folded gastrulation (Fog) is a secreted ligand that signals through the G-protein-coupled receptors Mist and Smog and the G-protein Concertina to activate downstream effectors to elicit cell-shape change during gastrulation. In the embryonic central nervous system (CNS), Fog has roles in axon guidance and glial morphogenesis. However, the elements of the pathway as well as mechanisms required for transducing the signal in this context have not been determined. We find that while Concertina is essential for Fog signaling, Mist is dispensable and Smog, surprisingly, functions as a negative regulator of the pathway in the CNS. Interestingly Heartless, a fibroblast growth factor receptor, also functions as a negative regulator. Furthermore, both Heartless and Smog interact in a synergistic manner to regulate Fog signaling. Our results thus identify Heartless and Smog as part of a common regulatory pathway that functions to restrict Fog signaling in the embryonic CNS and highlights the context-specific role for Fog receptors during development.
Highlights
Cells undergo change in shape during development to facilitate processes like cell migration, tissue extension and tube formation essential for organ formation
We find that Concertina is an essential factor for Folded gastrulation (Fog) signaling in the central nervous system (CNS) but interestingly Mist is not
Overexpression of Fog leads to ectopic axonal and glial midline crossing in the embryonic CNS. Using this as an assay, we show that Fog signaling in the CNS requires Concertina: loss of concertina completely suppresses midline crossing making it an essential component of the pathway in the CNS
Summary
Cells undergo change in shape during development to facilitate processes like cell migration, tissue extension and tube formation essential for organ formation. In Drosophila, GPCR signaling triggered by the ligand. Folded gastrulation (Fog), is amongst the first to be activated to bring about co-ordinated cell shape change essential for gastrulation (Costa et al, 1994). The signaling pathway consists of Concertina- the Ga12/13 subunit of the heterotrimeric G-protein (Cta; Parks and Wiechaus., 1991), which activates. Mist and Smog, have been identified as mediators of Fog signaling. Mist was identified as a receptor through a cell-culture based screen for suppressors of the pathway. This gene is zygotically expressed in early blastoderm embryos in a pattern similar to Fog (Manning et al, 2013).
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