Lipid droplets as substrates for protein phase separation

Abstract: Membrane-associated protein phase separation plays critical roles in cell biology, driving essential cellular phenomena from immune signaling to membrane traffic. Importantly, by restricting diffusion to a two-dimensional surface, lipid bilayers can nucleate phase separation at far lower concentrations compared to those required for phase separation in solution. How might other intracellular lipid substrates, such as lipid droplets, contribute to nucleation of phase separation? Distinct from bilayer membranes,… Show more

“…Our observations of condensate nucleation triggered at the LD surface are also consistent with in vitro experiments using the histidine-modified FUS low complexity domain interacting with NTA(Ni)-phospholipids 37 . In our system, the mechanism of recruitment of LLPS scaffolds on the LD surface is mediated by Plin proteins, which are LD-specific proteins.…”

Controlling lipid droplet dynamics via tether condensates

“…Our observations of condensate nucleation triggered at the LD surface are also consistent with in vitro experiments using the histidine-modified FUS low complexity domain interacting with NTA(Ni)-phospholipids 37 . In our system, the mechanism of recruitment of LLPS scaffolds on the LD surface is mediated by Plin proteins, which are LD-specific proteins.…”

Controlling lipid droplet dynamics via tether condensates