Abstract
Although COPI function on the early secretory pathway in eukaryotes is well established, earlier studies also proposed a nonconventional role for this coat complex in endocytosis in mammalian cells. Here we present results that suggest an involvement for specific COPI subunits in the late steps of endosomal protein sorting in Saccharomyces cerevisiae. First, we found that carboxypeptidase Y (CPY) was partially missorted to the cell surface in certain mutants of the COPIB subcomplex (COPIb; Sec27, Sec28, and possibly Sec33), which indicates an impairment in endosomal transport. Second, integral membrane proteins destined for the vacuolar lumen (i.e., carboxypeptidase S [CPS1]; Fur4, Ste2, and Ste3) accumulated at an aberrant late endosomal compartment in these mutants. The observed phenotypes for COPIb mutants resemble those of class E vacuolar protein sorting (vps) mutants that are impaired in multivesicular body (MVB) protein sorting and biogenesis. Third, we observed physical interactions and colocalization between COPIb subunits and an MVB-associated protein, Vps27. Together, our findings suggest that certain COPI subunits could have a direct role in vacuolar protein sorting to the MVB compartment.
We are grateful to Scott Emr for helpful discussion. We thank Charles Barlowe, Kendall Blumer, Rainer Duden, Scott Emr, Olivier Deloche, Uttam Surana, Robert Piper, Mark Longtine, Andreas Mayer, Peter Novick, Howard Riezman, and Anne Spang for the generous gifts of reagents.
This work was supported by grants to J.E.G. by the Minna James Heineman and Minerva Foundations, Germany. J.E.G. holds the Henry Kaplan chair in Cancer Research.