Literature DB >> 29976762

Lateral plasma membrane compartmentalization links protein function and turnover.

Jon V Busto1,2, Annegret Elting1, Daniel Haase1, Felix Spira1, Julian Kuhlman1, Marco Schäfer-Herte1, Roland Wedlich-Söldner3.   

Abstract

Biological membranes organize their proteins and lipids into nano- and microscale patterns. In the yeast plasma membrane (PM), constituents segregate into a large number of distinct domains. However, whether and how this intricate patchwork contributes to biological functions at the PM is still poorly understood. Here, we reveal an elaborate interplay between PM compartmentalization, physiological function, and endocytic turnover. Using the methionine permease Mup1 as model system, we demonstrate that this transporter segregates into PM clusters. Clustering requires sphingolipids, the tetraspanner protein Nce102, and signaling through TORC2. Importantly, we show that during substrate transport, a simple conformational change in Mup1 mediates rapid relocation into a unique disperse network at the PM Clustered Mup1 is protected from turnover, whereas relocated Mup1 actively recruits the endocytic machinery thereby initiating its own turnover. Our findings suggest that lateral compartmentalization provides an important regulatory link between function and turnover of PM proteins.
© 2018 The Authors.

Entities:  

Keywords:  amino acid permease; endocytosis; lateral membrane segregation; patchwork membrane; plasma membrane

Mesh:

Substances:

Year:  2018        PMID: 29976762      PMCID: PMC6092676          DOI: 10.15252/embj.201899473

Source DB:  PubMed          Journal:  EMBO J        ISSN: 0261-4189            Impact factor:   11.598


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