Many organs and structures formed during the embryonic morphogenesis of animals derive from epithelia. Epithelia are made up of apicobasally polarized cells which adhere to and communicate with each other, allowing for epithelial integrity and plasticity. During embryonic morphogenesis, epithelia change their shape and migrate in a coordinated manner. How these epithelial processes are regulated is still not fully understood. In a forward genetic screen using the embryo of the fruit fly Drosophila melanogaster, candidate genes influencing the morphogenesis of epithelial structures were identified. Three genes, CG17364, CG17362 and CG9040 were identified as possible regulators of lumen stability in the salivary glands, tubular organs deriving from the embryonic epithelium. Furthermore, the gene Cdep was found to play a crucial role in epithelial sheet migration during dorsal closure of the embryo. Embryos carrying genomic insertions that could affect the expression of CG17364, CG17362 and CG9040 show a luminal penotype of the embryonic salivary glands characterized by alternating bloated and seemingly closed sections. Therefore, one of these genes or a combination of them likely plays a role in stabilizing the salivary gland lumen. However, neither CG17364 nor CG17362 or CG9040 contain any known protein domains, hence their molecular roles remain unknown. Cdep (Chondrocyte-derived ezrin-like protein) is a member of the FERM-FA subclass of proteins. Proteins of the FERM family have been shown to interact with the plasma membrane and membrane-bound proteins as well as cytoskeleton components.
Accordingly, they have been implicated in stabilizing the cell cortex, and some of them are involved in signal transduction mechanisms. In addition to a FERM domain, Cdep also contains a RhoGEF domain, although is still not clear whether it actually exerts GEF activity. Genomic insertions in the Cdep locus cause defects in embryonic dorsal closure and atypical migratory behaviour in epithelial tubes. In order to study the molecular role of Cdep, the CRISPR/Cas9 system was employed to establish loss-of-function mutants of Cdep. The mutants show aberrations in germ band retraction, dorsal closure and head involution. Moreover, I found that two mutants carrying a premature STOP codon in the Cdep ORF, CdepE16X and CdepG17X, rescue the defects observed in embryonic cuticles mutant for two other FERM-FA members yurt (yrt) and coracle (cora). A deletion of the full Cdep ORF did not rescue those defects. I hypothesize that CdepE16X and CdepG17X encode Cdep variants with increased activity, which compensates for the loss of yrt or cora function, respectively. In conclusion, this leads to a model in which Cdep acts in parallel to Yrt and Cora during Drosophila embryonic morphogenesis. Many of the defects described in this study are reminiscent of phenotypes found in embryos mutant for components and downstream effectors of the Jun-N-terminal Kinase (JNK) pathway. Hence, my work supports an earlier hypothesis according to which a mouse homologue of Cdep, Farp2, acts as an upstream activator of the JNK pathway during epithelial cell migration in vitro (Miyamoto et al., 2003) The data provided here shows that Cdep plays a role in the morphogenesis of a great number of epithelia-derived organs and structures in vivo. My study therefore elucidates a missing link between cell migration cues and JNK pathway activation.
| Identifer | oai:union.ndltd.org:DRESDEN/oai:qucosa.de:bsz:14-qucosa-203534 |
| Date | 27 July 2016 |
| Creators | Morbach, Anne |
| Contributors | Technische Universität Dresden, Fakultät Mathematik und Naturwissenschaften, Prof. Dr. Elisabeth Knust, Prof. Dr. Christian Dahmann, Prof. Dr. Elisabeth Knust |
| Publisher | Saechsische Landesbibliothek- Staats- und Universitaetsbibliothek Dresden |
| Source Sets | Hochschulschriftenserver (HSSS) der SLUB Dresden |
| Language | English |
| Detected Language | English |
| Type | doc-type:doctoralThesis |
| Format | application/zip, application/pdf, application/zip |
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