Control of Ste6 Recycling by Ubiquitination in the Early Endocytic Pathway in Yeast

Tamara Krsmanovic’, Agnes Pawelec, Tobias Sydor,* and Ralf Kölling

Institut für Mikrobiologie, Heinrich-Heine-Universität Düsseldorf, D-40225 Düsseldorf, Germany

Monitoring Editor: Sandra Schmid

We present evidence that ubiquitinationcontrols sorting of the ABC-transporter Ste6 in the early endocyticpathway. The intracellular distribution of Ste6 variants withreduced ubiquitination was examined. In contrast to wildtypeSte6, which was mainly localized to internal structures, thesevariants accumulated at the cell surface in a polar manner.When endocytic recycling was blocked by Ypt6 inactivation, theubiquitination deficient variants were trapped inside the cell.This indicates that the polar distribution is maintained dynamicallythrough endocytic recycling and localized exocytosis ("kineticpolarization"). Ste6 does not appear to recycle through lateendosomes, since recycling was not blocked in class E vps (vacuolarprotein sorting) mutants ( ${Delta}$ vps4, ${Delta}$ vps27), which are affected inlate endosome function and in the retromer mutant ${Delta}$ vps35. Instead,recycling was partially affected in the sorting nexin mutant ${Delta}$ snx4, which serves as an indication that Ste6 recycles throughearly endosomes. Enhanced recycling of wildtype Ste6 was observedin class D vps mutants ( ${Delta}$ pep12, ${Delta}$ vps8 and ${Delta}$ vps21). The identificationof putative recycling signals in Ste6 suggests that recyclingis a signal-mediated process. Endocytic recycling and localizedexocytosis could be important for Ste6 polarization during themating process.

^*Present address: Institut für Zellbiologie, Universität Bonn, Ulrich-Haberland-Str. 61A, D-53121 Bonn, Germany.

Address correspondence to: Ralf Kölling (koelling{at}uni-hohenheim.de)

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