Phospholipid Self-Assemblies Shaped Like Ancient Chinese Coins for Artificial Organelles

Phospholipid self-assemblies are ubiquitous in organisms. Nonspherical lipid-based proto-organelles bear the merits with structures similar to real organelles. It is still a challenge to mimic mass transport between organelles inside cells. Herein, unusual phospholipid self-assemblies shaped like ancient Chinese coins (ACC) were discovered by the recrystallization of 1,2-dipalmitoyl-sn-glycero-3-phosphocholine in an ethanol/water solution from 50 to 25 degrees C with a certain cooling rate. Their diameter and the ratio of the square edge to the disk diameter were controlled by varying ethanol percentage, lipid concentration, and cooling rate. The ACC-shaped phospholipid bicelles expanded to stacked cisterna structures in pure water, which were regarded as artificial organelles. Mass transport among organelles in a cell was mimicked via the membrane fusion of vesicle shuttles and artificial organelles, which induced cascade enzyme reactions inside artificial organelles. The ACC-shaped phospholipid assemblies provide nice platforms for the studies of cell biology and bottom-up synthetic biology.