Your search keyword '"Barouch W"' showing total 3 results

1. Auxilin-induced interaction of the molecular chaperone Hsc70 with clathrin baskets.

Author

Barouch, W. and Prasad, K.

Published

1997

2. Interaction of auxilin with the molecular chaperone, Hsc70.

Author

Jiang, R F, Greener, T, Barouch, W, Greene, L, and Eisenberg, E

Abstract

We have studied the direct interaction of the constitutive isoform of Hsp70 (Hsc70) with the DnaJ homolog, auxilin, a cofactor that binds to clathrin-coated vesicles and is required for their uncoating by Hsc70. Auxilin caused a 5-fold increase in Hsc70 ATPase activity and a corresponding increase in steady-state levels of bound ADP; the dissociation constant for this effect was 0.6 microM. Auxilin also induced polymerization of Hsc70 and bound to the resulting polymer at a 1:1 molar ratio; here too the dissociation constant was 0.6 microM. Both this binding and polymerization required ATP; the Hsc70 depolymerized with a 4-min half-life when ATP was completely hydrolyzed to ADP. Although auxilin induces polymerization stoichiometrically and other DnaJ homologs induce polymerization catalytically, these data show that auxilin is similar to other DnaJ homologs in its ability to activate the Hsc70 ATPase activity, to polymerize Hsc70, and in the nucleotide dependence of this polymerization. Furthermore, the 70-amino acid J-domain of auxilin polymerized Hsc70 with the same nucleotide dependence as intact auxilin. Therefore, although only auxilin and not other DnaJ homologs support uncoating, our data suggest that various DnaJ homologs share a common mechanism of interaction with Hsc70, perhaps because their J-domains interact similarly with Hsc70.

Published

1997

3. ATPase activity associated with the uncoating of clathrin baskets by Hsp70.

Author

Barouch, W, Prasad, K, Greene, L E, and Eisenberg, E

Abstract

In the presence of ATP, bovine brain hsp70 has been shown to remove clathrin from bovine brain clathrin-coated vesicles in a rapid stoichiometric initial burst followed by slow steady-state uncoating. In addition, it has been found recently that a 100-kDa cofactor is required for hsp70 to uncoat clathrin baskets prepared with the assembly protein AP-2. In this study the ATPase activity associated with uncoating was investigated, with baskets formed from clathrin and assembly proteins. Mixed assembly proteins or assembly protein AP-2 could not be used in ATPase studies because they activated the hsp70 ATPase activity even in the absence of clathrin. However, this was not the case with assembly protein AP180. A stoichiometric initial burst of ATP hydrolysis was found to accompany the initial burst of uncoating of AP180-clathrin baskets by hsp70, with 1 mol of hydrolyzed ATP/mol of released clathrin heavy chain. Furthermore, the presence of a 100-kDa cofactor was needed for both processes. These results suggest that an initial burst of uncoating occurs with all clathrin baskets, that an initial burst of ATP hydrolysis accompanies this initial burst of uncoating, and that a 100-kDa cofactor is required for both.

Published

1994