Distinct Roles for the Hsp40 and Hsp90 Molecular Chaperones during Cystic Fibrosis Transmembrane Conductance Regulator Degradation in Yeast

Robert T. Youker^*, Peter Walsh, Traude Beilharz, Trevor Lithgow, and Jeffrey L. Brodsky^*

^* Department of Biological Sciences, University of Pittsburgh, Pittsburgh, PA 15260; Russell Grimwade School of Biochemistry and Molecular Biology, University of Melbourne, Parkville 3010, Australia

Submitted July 13, 2004; Revised August 4, 2004; Accepted August 19, 2004
Monitoring Editor: Reid Gilmore

Aberrant secreted proteins can be destroyed by ER-associatedprotein degradation (ERAD), and a prominent, medically relevantERAD substrate is the cystic fibrosis transmembrane conductanceregulator (CFTR). To better define the chaperone requirementsduring CFTR maturation, the protein was expressed in yeast.Because Hsp70 function impacts CFTR biogenesis in yeast andmammals, we first sought ER-associated Hsp40 cochaperones involvedin CFTR maturation. Ydj1p and Hlj1p enhanced Hsp70 ATP hydrolysisbut CFTR degradation was slowed only in yeast mutated for bothYDJ1 and HLJ1, suggesting functional redundancy. In contrast,CFTR degradation was accelerated in an Hsp90 mutant strain,suggesting that Hsp90 preserves CFTR in a folded state, andconsistent with this hypothesis, Hsp90 maintained the solubilityof an aggregation-prone domain (NBD1) in CFTR. Soluble ERADsubstrate degradation was unaffected in the Hsp90 or the Ydj1p/Hlj1pmutants, and surprisingly CFTR degradation was unaffected inyeast mutated for Hsp90 cochaperones. These results indicatethat Hsp90, but not the Hsp90 complex, maintains CFTR structuralintegrity, whereas Ydj1p/Hlj1p catalyze CFTR degradation.

Article published online ahead of print. Mol. Biol. Cell 10.1091/mbc.E04–07–0584.Article and publication date are available at www.molbiolcell.org/cgi/doi/10.1091/mbc.E04–07–0584.

Corresponding author. E-mail address: jbrodsky{at}pitt.edu.

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