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In vitro reconstitution of the molecular mechanisms of vesicle tethering and membrane fusion

Eukaryotic cells are populated by membrane-enclosed organelles possessing discrete molecular and biochemical properties. Communication between organelles is established by shuttling vesicles that transport proteins and other molecules. Vesicles bud from a donor organelle, travel in the cytosol, and are delivered to a target organelle. All these steps are regulated to ensure that cargoes are transported in a specific and directed manner.
The focus of this thesis is on the last part of the journey of a vesicle: the process of vesicle targeting. Two phases can be distinguished in this process: vesicle tethering, defined as the first interaction between the shuttling vesicle and the target membrane, and membrane fusion, which is the mixing of the lipid bilayers and of lumen content. Both phases are mediated by a minimal set of molecular components that include one member of the family of Rab GTPases, a vesicle tethering factor, a phosphoinositide lipid, and four SNAREs together with their regulatory proteins.
While many studies have investigated the molecular details of how SNAREs mediate membrane fusion, the process of vesicle tethering is less well understood. The overall scope of my study is to describe the molecular details of vesicle tethering and how they can contribute to the general process of vesicle targeting.
To address this question I developed an in vitro assay where I reconstitute in vitro the process of vesicle tethering. This bottom-up approach allows the molecular dissection of cellular processes outside of the complex context of the cell. With this assay I have characterized the vesicle tethering abilities of individual proteins involved in vesicle tethering on early endosomes. I show that a minimal vesicle tethering machinery can be formed by the concomitant interaction between one vesicle tethering factor and a phosphoinositide on the membrane of one vesicle, and by a vesicle tethering factor and a Rab GTPase on the membrane of another vesicle.
These results provide an explanation for how vesicle tethering contributes to the specificity of vesicle targeting and to the directionality of cargo transport. In particular, specificity of vesicle targeting can arise from the specific interaction between a Rab and a vesicle tethering factor that is an effector of the Rab. I show that the asymmetric distribution of binding sites in the structure of a vesicle tethering factor can generate a heterotypic vesicle tethering reaction that can account for the directionality of cargo transport. The outcome of this thesis emphasizes the role that vesicle tethering factors have in the self-organized system of vesicle trafficking of eukaryotic cells.

To identify novel Rab5 effectors implicated in vesicle tethering, I carried out a Rab5-chromatography on mouse liver. Amongst other novel Rab5 effectors, I identify a multi-subunit vesicle tethering complex that was not previously characterized in mammalian cells. The complex, named CORVET, is conserved from yeast to humans and plays a major role in cell physiology since its removal causes embryonic death in mice. I define its subunits composition, determine its subcellular localization, and elucidate its role in cargo transport. This finding reconciles a disharmony between findings in mammals and yeast regarding the molecular machinery responsible for the conversion from early to late endosomes. I also show that the newly identified subunit of the mammalian CORVET complex is the only Rab5 effector to localize to autophagosomes. I hypothesise that it is through the CORVET complex that Rab5 is involved in the formation and maturation of autophagosomes.

Identiferoai:union.ndltd.org:DRESDEN/oai:qucosa:de:qucosa:26774
Date21 March 2013
CreatorsPerini, Enrico Daniele
ContributorsZerial, Marino, Hoflack, Bernard, Technische Universität Dresden
Source SetsHochschulschriftenserver (HSSS) der SLUB Dresden
LanguageEnglish
Detected LanguageEnglish
Typedoc-type:doctoralThesis, info:eu-repo/semantics/doctoralThesis, doc-type:Text
Rightsinfo:eu-repo/semantics/openAccess

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