Clathrin Adaptor GGA1 Polymerizes Clathrin into Tubules

Zhang, Fang; Yim, Yang-In; Scarselletta, Sarah; Norton, M. Grant; Eisenberg, Evan; Greene, Lois E.

doi:10.1074/jbc.m700936200

Cited by 18 publications

(13 citation statements)

References 28 publications

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“…GGAs are a family of monomeric clathrin adaptors that mediate the sorting of transmembrane cargo from the trans-Golgi network to late endosomes [48]. GGA1 can directly interact with clathrin [49-51], AP1 [52,53], ARF [54], Rabaptin-5 [55,56] and with a variety of cargo molecules [57], and is required for sorting of the lysosomal targeting receptor, mannose-6-phosphate receptor [48,52]. It has also been observed that overexpression of GGA3 inhibits retrovirus assembly [58], and that the molecule interacts with TSG101, an ubiquitin-binding component of the multivesicular body that is a key regulator of HIV budding.…”

Section: Discussionmentioning

confidence: 99%

Application of Gaussia luciferase in bicistronic and non-conventional secretion reporter constructs

et al. 2014

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BackgroundSecreted luciferases are highly useful bioluminescent reporters for cell-based assays and drug discovery. A variety of secreted luciferases from marine organisms have been described that harbor an N-terminal signal peptide for release along the classical secretory pathway. Here, we have characterized the secretion of Gaussia luciferase in more detail.ResultsWe describe three basic mechanisms by which GLUC can be released from cells: first, classical secretion by virtue of the N-terminal signal peptide; second, internal signal peptide-mediated secretion and third, non-conventional secretion in the absence of an N-terminal signal peptide. Non-conventional release of dNGLUC is not stress-induced, does not require autophagy and can be enhanced by growth factor stimulation. Furthermore, we have identified the golgi-associated, gamma adaptin ear containing, ARF binding protein 1 (GGA1) as a suppressor of release of dNGLUC.ConclusionsDue to its secretion via multiple secretion pathways GLUC can find multiple applications as a research tool to study classical and non-conventional secretion. As GLUC can also be released from a reporter construct by internal signal peptide-mediated secretion it can be incorporated in a novel bicistronic secretion system.

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Section: Discussionmentioning

confidence: 99%

Application of Gaussia luciferase in bicistronic and non-conventional secretion reporter constructs

et al. 2014

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“…Thus, the Sec13/31 tubule is well suited for binding Sec23/24 and a tubular membrane despite blocking some of the Sec23/24 binding sites on individual Sec13/31 heterotetramers. Interestingly, in the endocytic pathway, clathrin has also been shown to polymerize into tubules in the presence of the GGA adaptor molecule (Zhang et al, 2007). Analogously, it is possible in the COPII system that Sec23/Sec24, in combination with TANGO1 and procollagen, promote the formation of a Sec13/31 tubular carrier in vivo, though this hypothesis would be quite difficult to test experimentally.…”

Section: Model For the Assembly Of The Sec13/31 Tubulementioning

confidence: 95%

The structure of a COPII tubule

O’Donnell

Maddox

Stagg

2011

Journal of Structural Biology

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“…Instead, uncharacteristic coated pits were seen in close association with the PVs (10), suggesting that a distinct arrangement of clathrin might occur in this parasite. It is also possible that, as was observed in vitro (35), clathrin may be organized in a hexagonal array, forming tubes instead of vesicles. Similar to TCs in HeLa cells (26), the tubules might not break down into CCVs en route to PVs in Giardia.…”

Section: Clathrin and Adaptor Proteinsmentioning

confidence: 99%

Lysosomal protein trafficking in Giardia lamblia common and distinct features

Touz¹

2012

Front Biosci

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Giardia is a flagellated protozoan parasite that has to face different microenvironments during its life cycle in order to survive. All cells exchange materials with the extracellular medium through the reciprocal processes of endocytosis and secretion. Unlike more evolved cells, Giardia lacks a defined endosomal/lysosomal system, but instead possesses peripheral vacuoles that play roles in endocytosis, degradation, recycling, and secretion of proteins during growth and differentiation of the parasite. This review focuses on recent reports defining the role of different molecules involved in protein trafficking to the peripheral vacuoles, and discusses possible mechanisms of receptor recycling. Since Giardia is an early-branching protist, the study of this parasite may lead to a clearer understanding of the minimal machinery required for protein transport in eukaryotic cells.

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Clathrin Adaptor GGA1 Polymerizes Clathrin into Tubules

Cited by 18 publications

References 28 publications

Application of Gaussia luciferase in bicistronic and non-conventional secretion reporter constructs

Application of Gaussia luciferase in bicistronic and non-conventional secretion reporter constructs

The structure of a COPII tubule

Lysosomal protein trafficking in Giardia lamblia common and distinct features

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