1. SigmaR1 shapes rough endoplasmic reticulum membrane sheets.
- Author
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Sawyer, Eric M., Jensen, Liv E., Meehl, Janet B., Larsen, Kevin P., Petito, Daniel A., Hurley, James H., and Voeltz, Gia K.
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SIGMA-1 receptor , *RNA-binding proteins , *SCAFFOLD proteins , *ENDOPLASMIC reticulum , *MEMBRANE proteins - Abstract
Rough endoplasmic reticulum (ER) sheets are a fundamental domain of the ER and the gateway into the secretory pathway. Although reticulon proteins stabilize high-curvature ER tubules, it is unclear whether other proteins scaffold the flat membranes of rough ER sheets. Through a proteomics screen using ER sheet-localized RNA-binding proteins as bait, we identify the sigma-1 receptor (SigmaR1) as an ER sheet-shaping factor. High-resolution live cell imaging and electron tomography assign SigmaR1 as an ER sheet-localized factor whose levels determine the amount of rough ER sheets in cells. Structure-guided mutagenesis and in vitro reconstitution on giant unilamellar vesicles further support a mechanism whereby SigmaR1 oligomers use their extended arrays of amphipathic helices to bind and flatten the lumenal leaflet of ER membranes to oppose membrane curvature and stabilize rough ER sheets. [Display omitted] • SigmaR1 and RNA-binding proteins Lyric and Lrrc59 partition into ER sheets • Changing SigmaR1 levels alters the balance of ER sheets and tubules in cells • SigmaR1 proliferates polyribosome-studded rough ER sheets • The flat lumenal surface of SigmaR1 oligomers opposes tubulation in vivo and in vitro Sawyer et al. utilize high-resolution fluorescence microscopy and EM tomography in cells in combination with a minimal in vitro reconstitution system to identify SigmaR1 as an integral ER membrane protein complex that is necessary and sufficient to stabilize rough ER sheets and oppose tubule formation. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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