Sherri L. Newmyer scite author profile

Within the clathrin-coated vesicle (CCV) cycle, coat assembly drives the internalization of receptors from the cell surface and disassembly allows for the processing of internalized ligands. The heat shock cognate protein, hsc70, has been implicated in regulating coat disassembly. We find that in cells overexpressing ATPase-deficient hsc70 mutants, uncoating of CCVs is inhibited in vivo, and the majority of unassembled cytosolic clathrin shifts to an assembled pool that cofractionates with AP1 and AP2. Surprisingly, this assembled pool of coat proteins accumulates in the absence of cargo receptors, suggesting that disruption of hsc70 activity may cause misassembly of empty clathrin cages. The strongest effect of overexpression of hsc70 mutants is a block in transferrin receptor (TfnR) recycling, which cannot be accounted for by the degree of inhibition of uncoating of endocytic CCVs. These results suggest that hsc70 participates in multiple transport and/or sorting events between endosomal compartments. Additionally, the mutant-expressing cells are defective at internalizing transferrin. In the most potent case, the initial rate of uptake is inhibited 10-fold, and TfnR levels double at the cell surface. Our findings demonstrate that hsc70 indeed regulates coat disassembly and also suggest that this chaperone broadly modulates clathrin dynamics throughout the CCV cycle.

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Hsc70 is required for endocytosis and clathrin function in Drosophila

Chang

et al. 2002

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By screening for Drosophila mutants exhibiting aberrant bride of sevenless (Boss) staining patterns on eye imaginal disc epithelia, we have recovered a point mutation in Hsc70-4, the closest homologue to bovine clathrin uncoating ATPase. Although the mutant allele was lethal, analysis of mutant clones generated by FLP/FRT recombination demonstrated that the Sevenless-mediated internalization of Boss was blocked in mutant Hsc70-4 eye disc epithelial cells. Endocytosis of other probes was also greatly inhibited in larval Garland cells. Immunostaining and EM analysis of the mutant cells revealed disruptions in the organization of endosomal/lysosomal compartments, including a substantial reduction in the number of clathrin-coated structures in Garland cells. The Hsc70-4 mutation also interacted genetically with a dominant-negative mutant of dynamin, a gene required for the budding of clathrin-coated vesicles (CCVs). Consistent with these phenotypes, recombinant mutant Hsc70 proteins exhibited diminished clathrin uncoating activity in vitro. Together, these data provide genetic support for the long-suspected role of Hsc70 in clathrin-mediated endocytosis, at least in part by inhibiting the uncoating of CCVs.

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Horseradish Peroxidase His-42 → Ala, His-42 → Val, and Phe-41 → Ala Mutants

Newmyer

Montellano

1995

Journal of Biological Chemistry

144

113

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Polyhistidine-tagged horseradish peroxidase (hHRP) and its F41A, H42A, and H42V mutants have expressed in an insect cell system. Kinetic studies show that the rates of Compound I formation and peroxidative catalysis are greatly decreased by the His-42 mutation. Furthermore, Compound II is not detected during turnover of the His-42 mutants. Compounds I and II are the two- and one-electron oxidized intermediates, respectively, of hHRP. In peroxygenative catalysis, the F41A and H42A mutants catalyze thioanisole sufoxidation 100 and 10 times faster, respectively, than hHRP. Styrene epoxidation is catalyzed by both the Phe-41 and His-42 mutants but not by wild-type hHRP. The higher peroxygenase activity of the mutants reflects increased accessibility of the ferryl species. This is indicated by the finding that, contrary to the reaction with wild-type hHRP, reaction of phenyldiazene with the F41A mutant yields a new and unidentified product, and the same reaction with the His-42 mutants yields phenyl-iron complexes. Phe-41 and His-42 thus shield the iron-centered catalytic species, and His-42 plays a key catalytic role in the formation of Compound I. The peroxygenase activities of the Phe-41 and His-42 mutants approach those of cytochrome P450.

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Auxilin-Dynamin Interactions Link the Uncoating ATPase Chaperone Machinery with Vesicle Formation

2003

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The large GTPase dynamin is required for budding of clathrin-coated vesicles from the plasma membrane, after which the clathrin coat is removed by the chaperone Hsc70 and its cochaperone auxilin. Recent evidence suggests that the GTP-bound form of dynamin may recruit factors that execute the fission reaction. Here, we show that dynamin:GTP binds to Hsc70 and auxilin. We mapped two domains within auxilin that interact with dynamin, and these domains inhibit endocytosis when overexpressed in HeLa cells or when added in a permeable cell assay. The inhibition is not due to impairment of clathrin uncoating or to altered clathrin distribution in cells. Thus, in addition to its requirement for clathrin uncoating, our results show that auxilin also acts during the early steps of clathrin-coated vesicle formation. The data suggest that dynamin regulates the action of molecular chaperones in vesicle budding during endocytosis.

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Sherri L. Newmyer

Dominant-Interfering Hsc70 Mutants Disrupt Multiple Stages of the Clathrin-Coated Vesicle Cycle in Vivo

Hsc70 is required for endocytosis and clathrin function in Drosophila

Horseradish Peroxidase His-42 → Ala, His-42 → Val, and Phe-41 → Ala Mutants

Auxilin-Dynamin Interactions Link the Uncoating ATPase Chaperone Machinery with Vesicle Formation

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