Multiple pathways facilitate the biogenesis of mammalian tail-anchored proteins

Joseph Casson; Michael McKenna; Sarah Hassdenteufel; Naama Aviram; Richard Zimmerman; Stephen High

doi:10.1242/jcs.207829

Back

Multiple pathways facilitate the biogenesis of mammalian tail-anchored proteins

Journal article

an open version is available

Peer reviewed

Multiple pathways facilitate the biogenesis of mammalian tail-anchored proteins

Joseph Casson, Michael McKenna, Sarah Hassdenteufel, Naama Aviram, Richard Zimmerman and Stephen High

Journal of Cell Science, Vol.130(22), pp.3851-3861

15/Nov/2017

DOI: https://doi.org/10.1242/jcs.207829

Files and links (1)

url

https://doi.org/10.1242/jcs.207829View

Published (Version of record)CC BY V4.0, Open Access

Abstract

Tail-anchored (TA) proteins are transmembrane proteins with a single C-terminal transmembrane domain, which functions as both their subcellular targeting signal and membrane anchor. We show that knockout of TRC40 in cultured human cells has a relatively minor effect on endogenous TA proteins, despite their apparent reliance on this pathway in vitro. These findings support recent evidence that the canonical TRC40 pathway is not essential for TA protein biogenesis in vivo. We therefore investigated the possibility that other ER-targeting routes can complement the TRC40 pathway and identified roles for both the SRP pathway and the recently described mammalian SND pathway in TA protein biogenesis. We conclude that, although TRC40 normally plays an important role in TA protein biogenesis, it is not essential, and speculate that alternative pathways for TA protein biogenesis, including those identified in this study, contribute to the redundancy of the TRC40 pathway.

Details

Title: Multiple pathways facilitate the biogenesis of mammalian tail-anchored proteins
Creators: Joseph Casson (null) - University of Manchester
Michael McKenna (null) - University of Manchester
Sarah Hassdenteufel (null) - Saarland University
Naama Aviram (null) - 972WIS_INST___111
Richard Zimmerman (null) - Saarland University
Stephen High (Corresponding Author) - University of Manchester
Resource Type: Journal article
Publication Details: Journal of Cell Science, Vol.130(22), pp.3851-3861; 15/Nov/2017
Number of pages: 11
Language: English
DOI: https://doi.org/10.1242/jcs.207829
Grant note: We gratefully acknowledge Bhalchandra (Balu) Jadhav and Irmgard Sinning (Heidelberg University, Germany) for providing recombinant SR, Viki Allan (University of Manchester, UK) for access to microscopy facilities and Horizon Discovery for gRNA-Cas9 plasmids. We would also like to thank Lisa Swanton for feedback during the preparation of this manuscript. Author contributions Conceptualization: J.C., M.M., S. High; Methodology: J.C., M.M., S. Hassdenteufel, N.A., R.Z., S. High; Validation: J.C., M.M., S. Hassdenteufel; Formal analysis: J.C., M.M.; Investigation: J.C., M.M.; Resources: J.C., M.M., S. High; Writing - original draft: J.C., M.M.; Writing - review & editing: S. Hassdenteufel, N.A., R.Z.; Visualization: J.C., M.M., S. High; Supervision: S. High; Project administration: S. High; Funding acquisition: J.C., S. High. Funding This work was supported by a Wellcome Trust PhD studentship [103144/Z/13/Z to J.C.], a Wellcome Trust Investigator Award in Science [204957/Z/16/Z to S.H.], a Doctoral Training Programme Award from the Biotechnology and Biological Sciences Research Council (BBSRC) [BB/J014478/1 to M.M.] and funding from the Deutsche Forschungsgemeinschaft [IRTG 180 and ZI 234/13-1 to R.Z.]. Deposited in PMC for immediate release.
Record Identifier: 993266955403596

Metrics

6 Record Views

See more details