In-vitro Reconstitution of Membrane Contact Sites between the Endoplasmic Reticulum and Lipid Droplets

ABSTRACT

Coordinated cell function requires inter-organelle communication across Membrane Contact Sites (MCS). Here we deposit ER-enriched microsomes purified from rat liver or from cultured cells on a coverslip in the form of a continuous planar membrane. We visualize real-time protein and lipid exchanges across MCS that form between this ER-mimicking membrane and lipid droplets purified from rat liver. An Optical trap is used to demonstrate physical tethering of individual lipid droplets to the ER-mimicking membrane at MCS, and to directly measure the strength of this tether. In-vitro MCS formation changes dramatically in response to metabolic state and immune activation in the animal. Surprisingly, we find that the Rab18 GTPase and Phosphatidic acid are common molecular factors to control both of these pathways. This assay could possibly be adapted to interrogate MCS formation between other membranes (e.g. mitochondria, peroxisomes, endosomes etc.), and abnormalities therein that cause neurological, metabolic and pathogenic diseases.