A new targeting motif for endoplasmic reticulum surface proteins

The Endoplasmic Reticulum (ER) is the entry site to the secretory pathway, serving as the targeting destination for ∼30% of the proteome. The mechanisms for targeting soluble or integral membrane secretory pathway proteins are well-studied. However, it is currently unknown how the tens of ER surface proteins (SuPs), central for organelle function, reach the outer leaflet of the membrane. It was previously shown that an amphipathic helix (AH) from the Brome mosaic virus protein 1a, is both necessary and sufficient for targeting to the ER surface in baker’s yeast. We therefore utilized this helix as a model substrate and performed a high-content screen to uncover factors that affect SuP targeting. Our results suggest a role for membrane lipid composition in targeting specificity. To see if the presence of an AH is a more general mechanism for SuP targeting, we searched for their presence within SuPs of both yeast and humans. Five endogenous yeast SuPs contained AHs, and of these four were sufficient for ER localization. Moreover, the presence of an AH was conserved to human SuP orthologs. By altering helix features we determine the parameters that affect this new targeting motif. Hence our work demonstrates how specific properties of AHs encode affinity for the ER membrane. More globally, understanding how SuPs are targeted correctly takes us a step forward in determining the underlying mechanisms of cellular localization and secretory pathway functions.

The authors declare that they have no conflict of interest.