55 research outputs found

    Sorting it out: AP-2 and alternate clathrin adaptors in endocytic cargo selection

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    The AP-2 adaptor complex is widely viewed as a linchpin molecule in clathrin-mediated endocytosis, simultaneously binding both clathrin and receptors. This dual interaction couples cargo capture with clathrin coat assembly, but it has now been discovered that the association with cargo is tightly regulated. Remarkably, AP-2 is not obligatory for all clathrin-mediated uptake, and several alternate adaptors appear to perform similar sorting and assembly functions at the clathrin bud site

    Requirement for a Uroplakin 3a-like protein in the development of zebrafish pronephric tubule epithelial cell function, morphogenesis, and polarity

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    Uroplakin (UP)3a is critical for urinary tract development and function; however, its role in these processes is unknown. We examined the function of the UP3a-like protein Upk3l, which was expressed at the apical surfaces of the epithelial cells that line the pronephric tubules (PTs) of the zebrafish pronephros. Embryos treated with upk3l-targeted morpholinos showed decreased pronephros function, which was attributed to defects in PT epithelial cell morphogenesis and polarization including: loss of an apical brush border and associated phospho-ERM proteins, apical redistribution of the basolateral Na+/K+-ATPase, and altered or diminished expression of the apical polarity complex proteins Prkcz (atypical protein kinase C zeta) and Pard3 (Par3). Upk3l missing its C-terminal cytoplasmic domain or containing mutations in conserved tyrosine or proline residues did not rescue, or only partially rescued the effects of Upk3l depletion. Our studies indicate that Upk3l promotes epithelial polarization and morphogenesis, likely by forming or stimulating interactions with cytoplasmic signaling or polarity proteins, and that defects in this process may underlie the pathology observed in UP3a knockout mice or patients with renal abnormalities that result from altered UP3a expression. Β© 2012 Mitra et al

    The AP-2 adaptor Ξ²2 appendage scaffolds alternate cargo endocytosis

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    The independently folded appendages of the large Ξ± and Ξ²2 subunits of the endocytic adaptor protein (AP)-2 complex coordinate proper assembly and operation of endocytic components during clathrin-mediated endocytosis. The Ξ²2 subunit appendage contains a common binding site for Ξ²-arrestin or the autosomal recessive hypercholesterolemia (ARH) protein. To determine the importance of this interaction surface in living cells, we used small interfering RNA-based gene silencing. The effect of extinguishing Ξ²2 subunit expression on the internalization of transferrin is considerably weaker than an AP-2 Ξ± subunit knockdown. We show the mild sorting defect is due to fortuitous substitution of the Ξ²2 chain with the closely related endogenous Ξ²1 subunit of the AP-1 adaptor complex. Simultaneous silencing of both Ξ²1 and Ξ²2 subunit transcripts recapitulates the strong Ξ± subunit RNA interference (RNAi) phenotype and results in loss of ARH from endocytic clathrin coats. An RNAi-insensitive Ξ²2-yellow fluorescent protein (YFP) expressed in the Ξ²1 + Ξ²2-silenced background restores cellular AP-2 levels, robust transferrin internalization, and ARH colocalization with cell surface clathrin. The importance of the Ξ² appendage platform subdomain over clathrin for precise deposition of ARH at clathrin assembly zones is revealed by a Ξ²2-YFP with a disrupted ARH binding interface, which does not restore ARH colocalization with clathrin. We also show a Ξ²-arrestin 1 mutant, which engages coated structures in the absence of any G protein-coupled receptor stimulation, colocalizes with Ξ²2-YFP and clathrin even in the absence of an operational clathrin binding sequence. These findings argue against ARH and Ξ²-arrestin binding to a site upon the Ξ²2 appendage platform that is later obstructed by polymerized clathrin. We conclude that ARH and Ξ²-arrestin depend on a privileged Ξ²2 appendage site for proper cargo recruitment to clathrin bud sites

    Structural requirements for PACSIN/Syndapin operation during zebrafish embryonic notochord development.

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    PACSIN/Syndapin proteins are membrane-active scaffolds that participate in endocytosis. The structure of the Drosophila Syndapin N-terminal EFC domain reveals a crescent shaped antiparallel dimer with a high affinity for phosphoinositides and a unique membrane-inserting prong upon the concave surface. Combined structural, biochemical and reverse genetic approaches in zebrafish define an important role for Syndapin orthologue, Pacsin3, in the early formation of the notochord during embryonic development. In pacsin3-morphant embryos, midline convergence of notochord precursors is defective as axial mesodermal cells fail to polarize, migrate and differentiate properly. The pacsin3 morphant phenotype of a stunted body axis and contorted trunk is rescued by ectopic expression of Drosophila Syndapin, and depends critically on both the prong that protrudes from the surface of the bowed Syndapin EFC domain and the ability of the antiparallel dimer to bind tightly to phosphoinositides. Our data confirm linkage between directional migration, endocytosis and cell specification during embryonic morphogenesis and highlight a key role for Pacsin3 in this coupling in the notochord

    Transient Fcho1/2β‹…Eps15/Rβ‹…AP-2 Nanoclusters Prime the AP-2 Clathrin Adaptor for Cargo Binding.

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    Clathrin-coated vesicles form by rapid assembly of discrete coat constituents into a cargo-sorting lattice. How the sequential phases of coat construction are choreographed is unclear, but transient protein-protein interactions mediated by short interaction motifs are pivotal. We show that arrayed Asp-Pro-Phe (DPF) motifs within the early-arriving endocytic pioneers Eps15/R are differentially decoded by other endocytic pioneers Fcho1/2 and AP-2. The structure of an Eps15/Rβ‹…Fcho1Β ΞΌ-homology domain complex reveals a spacing-dependent DPF triad, bound in a mechanistically distinct way from the mode of single DPF binding to AP-2. Using cells lacking FCHO1/2 and with Eps15 sequestered from the plasma membrane, we establish that without these two endocytic pioneers, AP-2 assemblies areΒ fleeting and endocytosis stalls. Thus, distinct DPF-based codes within the unstructured Eps15/R C terminus direct the assembly of temporary Fcho1/2β‹…Eps15/Rβ‹…AP-2 ternary complexes to facilitate conformational activation of AP-2 by the Fcho1/2 interdomain linker to promote AP-2 cargo engagement.Supported by NIH R01 GM106963 to L.M.T. and Wellcome Trust grants 090909/Z to D.J.O., 097040 to A.G.W., and 100140 to CIMR.This is the final version of the article. It first appeared from Cell Press / Elsevier via https://doi.org/10.1016/j.devcel.2016.05.00

    Endocytosis

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