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Vesicular roles of Arp2/3 nucleation-promoting factors
Dostál, Vojtěch ; Libusová, Lenka (advisor) ; Malínský, Jan (referee) ; Befekadu, Asfaw (referee)
F-actin is involved in key aspects of vesicular traffic, such as membrane deformation, tubulation and vesicle motion. Branching of F-actin is mediated by Arp2/3 but this complex must first be activated by so-called nucleation-promoting factors (NPFs). These factors play an essential role in the decision where and when branched actin should form on the membrane surface. The thesis focuses on the mechanisms which underlie localization and activation of NPFs, especially in terms of the phosphoinositide composition of the vesicle membranes. I show that one of the NPFs, the WASH complex, does not exclusively depend on the retromer complex for its membrane anchoring, as previously theorized. Rather, its understudied subunit SWIP enables the complex to independently bind to the membrane. I also present data showing that the WASH complex has essential roles in maintaining lysosomal function. Additionally, I elucidate the function of another NPF known as WHAMM in the ERGIC compartment, showing that it depends on the presence of myotubularin 9 for its ability to form membrane tubules. The thesis improves our understanding of the interface between the actin cytoskeleton and intracellular membrane system.
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Analysis of WASH complex component FAM21
Dostál, Vojtěch ; Libusová, Lenka (advisor) ; Žárský, Viktor (referee)
The dynamics and function of the actin cytoskeleton depends on polymerization and branching of actin filaments, an event that is stimulated by Arp2/3. Arp2/3-dependent branching is closely linked to the pentameric WASH complex which consists of WASH, strumpellin, SWIP, CCDC53 and FAM21. WASH complex is associated mainly with endosomes. It was traditionally localized to retromer-coated domains of early endosomes which enable sorting and recycling of endocytosed material. However, latest scientific data extend the role of WASH complex to other endosomal or even non-endosomal sites. Of all the subunits of the WASH complex, FAM21 is the most prominent hub for protein-protein interactions, thanks to its long unstructured C-terminal domain. In my diploma thesis FAM21 was localized to early and late endosomes and lysosomes of U2OS human cell line. Dictyostelium discoideum was then used as a model organism to investigate FAM21 protein interactions as well as the proteins associated specifically with the C terminal domain of FAM21. Results of the study shed new light on the complex network of FAM21 interactions and question the long-standing theories on the function of WASH complex in cells. Powered by TCPDF (www.tcpdf.org)
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