TY - JOUR
T1 - Ergosterol content specifies targeting of tail-anchored proteins to mitochondrial outer membranes
AU - Krumpe, Katrin
AU - Frumkin, Idan
AU - Herzig, Yonatan
AU - Rimon, Nitzan
AU - Oezbalci, Cagakan
AU - Bruegger, Britta
AU - Rapaport, Doron
AU - Schuldiner, Maya
N1 - Deutsche Forschungsgemeinschaft [TP A1 SFB/TRR 83, RA 1048/4-1, RA 1048/5-1]; CellNetworks Cluster of Excellence [ECX81]; Feinberg Foundation Visiting Faculty Program; Marie Curie Re-integration grant (program FP7 of the EU) [239224]; EMBO short-term fellowship; Israeli Science Foundation (ISF) Legacy Heritage fund [1995/08]; Human Frontiers Science Program [CDA0006/2008-C]; ISF grantWe gratefully acknowledge A. Azem for helpful discussions. We thank B. Schwappach, J. Nunnari, C. Loewen, J. Audhya, and T. Edlind for plasmids; K. Rehn, J. Johanning, and E. Kracker for technical support; and T. Sachsenheimer and D. Wistuba for help with the ergosterol determination. We also thank A. Futerman for reagents, M. Breker for setting up the ScanR microcopy system, and Y. Cohen and T. Ast for assistance. We thank I. Yofe, T. Ast, O. Schuldiner, and Y. Cohen for critical reading of the manuscript. This work was supported by: the Deutsche Forschungsgemeinschaft (TP A1 SFB/TRR 83 to B.B.; RA 1048/4-1 and RA 1048/5-1 to D.R.); the CellNetworks Cluster of Excellence (ECX81 to B.B.); the Feinberg Foundation Visiting Faculty Program (D.R.); the Marie Curie Re-integration grant (program FP7 of the EU 239224 to the Schuldiner laboratory); an EMBO short-term fellowship (I.F.); and the Israeli Science Foundation (ISF) Legacy Heritage fund (grant # 1995/08 to Y.H.). The robotic setup was purchased through a career development award from the Human Frontiers Science Program (CDA0006/2008-C), as well as the above-mentioned ISF grant, the generous donation of the J&R Foundation, and the estate of Lela London.
PY - 2012/10/15
Y1 - 2012/10/15
N2 - Tail-anchored (TA) proteins have a single C-terminal transmembrane domain, making their biogenesis dependent on posttranslational translocation. Despite their importance, no dedicated insertion machinery has been uncovered for mitochondrial outer membrane (MOM) TA proteins. To decipher the molecular mechanisms guiding MOM TA protein insertion, we performed two independent systematic microscopic screens in which we visualized the localization of model MOM TA proteins on the background of mutants in all yeast genes. We could find no mutant in which insertion was completely blocked. However, both screens demonstrated that MOM TA proteins were partially localized to the endoplasmic reticulum (ER) in Äspf1 cells. Spf1, an ER ATPase with unknown function, is the first protein shown to affect MOM TA protein insertion. We found that ER membranes in Δspf1 cells become similar in their ergosterol content to mitochondrial membranes. Indeed, when we visualized MOM TA protein distribution in yeast strains with reduced ergosterol content, they phenocopied the loss of Spf1. We therefore suggest that the inherent differences in membrane composition between organelle membranes are sufficient to determine membrane integration specificity in a eukaryotic cell.
AB - Tail-anchored (TA) proteins have a single C-terminal transmembrane domain, making their biogenesis dependent on posttranslational translocation. Despite their importance, no dedicated insertion machinery has been uncovered for mitochondrial outer membrane (MOM) TA proteins. To decipher the molecular mechanisms guiding MOM TA protein insertion, we performed two independent systematic microscopic screens in which we visualized the localization of model MOM TA proteins on the background of mutants in all yeast genes. We could find no mutant in which insertion was completely blocked. However, both screens demonstrated that MOM TA proteins were partially localized to the endoplasmic reticulum (ER) in Äspf1 cells. Spf1, an ER ATPase with unknown function, is the first protein shown to affect MOM TA protein insertion. We found that ER membranes in Δspf1 cells become similar in their ergosterol content to mitochondrial membranes. Indeed, when we visualized MOM TA protein distribution in yeast strains with reduced ergosterol content, they phenocopied the loss of Spf1. We therefore suggest that the inherent differences in membrane composition between organelle membranes are sufficient to determine membrane integration specificity in a eukaryotic cell.
UR - http://www.scopus.com/inward/record.url?scp=84867474549&partnerID=8YFLogxK
U2 - https://doi.org/10.1091/mbc.E11-12-0994
DO - https://doi.org/10.1091/mbc.E11-12-0994
M3 - مقالة
SN - 1059-1524
VL - 23
SP - 3927
EP - 3935
JO - Molecular Biology of the Cell
JF - Molecular Biology of the Cell
IS - 20
ER -