Location and motion of free cholesterol molecules in high density lipoprotein

Human high density lipoprotein (HDL₃) was reconstituted with the free cholesterol molecules replaced with 4-[¹³C]-cholesterol. 90 MHz [¹³C]-NMR spectra were obtained and two cholesterol resonances at chemical shifts of 41.73 and 42.20 ppm could be resolved. The former signal arises from the C-4 atom of cholesterol molecules associated with phospholipids and located in the surface of the HDL₃ particle while the latter resonance is due to cholesterol molecules associated with cholesterol ester and triglyceride molecules in the core. HDL₃ reconstituted without any cholesterol ester or triglyceride gave a single resonance at 41.73 ppm indicating that all the free cholesterol molecules are in the surface. 60% of the free cholesterol molecules present in normal HDL₃ are in the phospholipid monolayer around the surface where they undergo relatively restricted motion compared to the remaining 40% situated in the liquid core. The free cholesterol molecules can equilibrate between the two pools in the timescale 10ms–700s.