👤 Elina Nikko

Recognition of membrane proteins by the Nedd4/Rsp5 ubiquitin ligase family is a critical step in their targeting to the multivesicular body pathway. Some substrates contain "PY" motifs (PPxY), which bind to WW domains in the ligase. Others lack PY motifs and instead rely on adaptors that recruit the ligase to them. To investigate the mechanism of adaptor-mediated ubiquitination, we have characterized the interactions between the adaptor Bsd2, the ubiquitin ligase Rsp5, and the membrane proteins Cps1, Tre1, and Smf1 from Saccharomyces cerevisiae. We have reconstituted adaptor-mediated modification of Cps1 and Tre1 in vitro, and we show that two PY motifs in Bsd2 and two WW domains (WW2 and WW3) in Rsp5 are crucial for this. The binding of a weak noncanonical DMAPSY motif in Bsd2 to WW3 is an absolute requirement for Bsd2 adaptor function. We show that sorting of the manganese transporter Smf1, which requires both Bsd2 and Tre1, depends upon two PY motifs in Bsd2 and one motif in Tre1 but only two WW domains in Rsp5. We suggest that sequential assembly of first a Bsd2/Rsp5 complex, then a Tre1/Bsd2/Rsp5 complex followed by a rearrangement of PY-WW interactions is required for the ubiquitination of Smf1. Show less

Degradation of various membrane proteins in the lumen of the vacuole/lysosome requires their prior sorting into the multivesicular body (MVB) pathway. In this process, ubiquitin serves as a sorting signal for most cargoes. The yeast ubiquitin hydrolase Doa4 acts late in the MVB pathway. It's role is to catalyze deubiquitination of cargo proteins prior to their sorting into the endosomal vesicles. This step rescues ubiquitin from degradation in the vacuole/lysosome, enabling it to be recycled. Accordingly, the level of monomeric ubiquitin is typically reduced in doa4 mutants. Although MVB sorting of cargo proteins is also impaired in doa4 mutants, the question of whether this defect is due solely to Doa4's role in maintaining a normal pool of ubiquitin in the cell remains open. We here show that the requirement of Doa4 for correct MVB sorting of the endocytic cargo general amino acid permease and of the biosynthetic cargo carboxypeptidase S are not because of the role of Doa4 in ubiquitin recycling. This suggests a direct role of Doa4 in MVB sorting and we show that this role depends on Doa4's catalytic activity. We propose that deubiquitination by Doa4 of cargo proteins and/or some components of the MVB sorting machinery is essential to correct sorting of cargoes into the MVB pathway. Show less