Epithelial sheets line the surfaces of the body, forming a barrier between the external environment and internal tissues. During development, regulation of epithelial architechture can drive morphogenesis and build the three-dimensional structures of the body. Epithelial form and function derive from the polarized morphology of epithelial cells, which have apical surfaces that face the external environment, lateral surfaces containing cell-cell junctions and basal surfaces that connect to the underlying tissue. A network of polarity proteins establishes the apico-basolateral axis, while a system of polarized membrane traffic ensures delivery of specialized cargo to distinct membrane surfaces. How these systems of polarity and trafficking are integrated is still poorly understood.
The focus of my study was to investigate how the apical polarity proteins Cdc42, Par6, Bazooka and aPKC (the “Par complex”) regulate polarity and adherens junction (AJ) integrity during Drosophila development. Upon perturbation of Cdc42/Par activity during embryogenesis, apical membrane proteins accumulate in sorting endosomes. This trafficking defect occurs throughout the ectoderm, but in the ventral neuroectoderm (VNE) is accompanied by a concomitant depletion of the apical proteins from the plasma membrane (PM) and a loss of AJ integrity. I have demonstrated that the VNE phenotype is a consequence of the relatively high morphogenetic activity of this tissue. Furthermore, I have shown that the AJ defects are likely a downstream consequence of the depletion of important apical polarity factors, such as Crumbs, from the PM. To further characterize the mechanism of apical trafficking, I searched for interactors of Cdc42/Par in the membrane trafficking machinery. I describe interactions between several trafficking genes and Cdc42/Par and provide evidence that Vps26, a component of the retromer complex that retrieves proteins from endosomal membrane and delivers them to the Golgi for re-secretion, is phosphorylated by aPKC and acts as an aPKC effector in the recycling of apical membrane proteins. I propose that Cdc42/Par regulate the retromer to promote the PM localization of apical proteins, which is important to maintain AJ integrity in morphogenetically active tissues.
Identifer | oai:union.ndltd.org:TORONTO/oai:tspace.library.utoronto.ca:1807/32028 |
Date | 17 January 2012 |
Creators | Harris, Kathryn P. |
Contributors | Tepass, Ulrich |
Source Sets | University of Toronto |
Language | en_ca |
Detected Language | English |
Type | Thesis |
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