Hairpin protein partitioning from the ER to lipid droplets involves major structural rearrangements

Dhiman, Ravi; Perera, Rehani S.; Poojari, Chetan S.; Wiedemann, Haakon T. A.; Kappl, Reinhard; Kay, Christopher W. M.; Hub, Jochen S.; Schrul, Bianca

Hairpin protein partitioning from the ER to lipid droplets involves major structural rearrangements

Ravi Dhiman, Rehani S. Perera, Chetan S. Poojari, Haakon T. A. Wiedemann, Reinhard Kappl, Christopher W. M. Kay, Jochen S. Hub and Bianca Schrul ()
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Ravi Dhiman: Saarland University
Rehani S. Perera: Saarland University
Chetan S. Poojari: Saarland University
Haakon T. A. Wiedemann: Saarland University
Reinhard Kappl: Saarland University
Christopher W. M. Kay: Saarland University
Jochen S. Hub: Saarland University
Bianca Schrul: Saarland University

Nature Communications, 2024, vol. 15, issue 1, 1-18

Abstract: Abstract Lipid droplet (LD) function relies on proteins partitioning between the endoplasmic reticulum (ER) phospholipid bilayer and the LD monolayer membrane to control cellular adaptation to metabolic changes. It has been proposed that these hairpin proteins integrate into both membranes in a similar monotopic topology, enabling their passive lateral diffusion during LD emergence at the ER. Here, we combine biochemical solvent-accessibility assays, electron paramagnetic resonance spectroscopy and intra-molecular crosslinking experiments with molecular dynamics simulations, and determine distinct intramembrane positionings of the ER/LD protein UBXD8 in ER bilayer and LD monolayer membranes. UBXD8 is deeply inserted into the ER bilayer with a V-shaped topology and adopts an open-shallow conformation in the LD monolayer. Major structural rearrangements are required to enable ER-to-LD partitioning. Free energy calculations suggest that such structural transition is unlikely spontaneous, indicating that ER-to-LD protein partitioning relies on more complex mechanisms than anticipated and providing regulatory means for this trans-organelle protein trafficking.

Date: 2024
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DOI: 10.1038/s41467-024-48843-8

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