eLife (May 2022)

Seipin transmembrane segments critically function in triglyceride nucleation and lipid droplet budding from the membrane

  • Siyoung Kim,
  • Jeeyun Chung,
  • Henning Arlt,
  • Alexander J Pak,
  • Robert V Farese Jnr,
  • Tobias C Walther,
  • Gregory A Voth

DOI
https://doi.org/10.7554/eLife.75808
Journal volume & issue
Vol. 11

Abstract

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Lipid droplets (LDs) are organelles formed in the endoplasmic reticulum (ER) to store triacylglycerol (TG) and sterol esters. The ER protein seipin is key for LD biogenesis. Seipin forms a cage-like structure, with each seipin monomer containing a conserved hydrophobic helix and two transmembrane (TM) segments. How the different parts of seipin function in TG nucleation and LD budding is poorly understood. Here, we utilized molecular dynamics simulations of human seipin, along with cell-based experiments, to study seipin’s functions in protein–lipid interactions, lipid diffusion, and LD maturation. An all-atom simulation indicates that seipin TM segment residues and hydrophobic helices residues located in the phospholipid tail region of the bilayer attract TG. Simulating larger, growing LDs with coarse-grained models, we find that the seipin TM segments form a constricted neck structure to facilitate conversion of a flat oil lens into a budding LD. Using cell experiments and simulations, we also show that conserved, positively charged residues at the end of seipin’s TM segments affect LD maturation. We propose a model in which seipin TM segments critically function in TG nucleation and LD growth.

Keywords