HDL Structure.

HDL has various protein components, including enzymes, complement components, apolipoproteins, protease inhibitors, etc. In addition to proteins, lipids are also a significant component of HDL. These components and their structure determine the function of HDL. HDL is heavily involved in the acute response phase, complement regulation phase, hemostasis phase, immune response phase, and protease inhibition phase. Among the apolipoproteins, the predominant component is Apo A-I, which confers various atherogenic activities to HDL. Apo A-II, Apo-C, Apo-D, Apo-F, Apo-H, Apo-J, and Apo-O, which can bind free fatty acids, regulate the activity of many proteins involved in HDL metabolism, inhibit lipid transfer, and control the endogenous coagulation cascade. A major functional component is the enzyme LCAT, which helps catalyze the conversion of cholesterol to plasma-based lipoproteins and then to cholesteryl esters. Another enzyme associated with HDL is human paraoxonase, calcium-, PON1-, PON2-, and PON3-dependent lactone enzyme with catalytic activity, including reversible binding to substrates. PAF-AH is a phospholipase with lipoprotein properties, and HDL and LDL particles are commonly bound to plasma PAF-AH for circulation. As for lipid components, PC is an essential phospholipid subclass and may be a biomarker for constitutive inflammation. Sphingolipids, such as sphingomyelin and ceramide, also play an indispensable role in HDL function. In different physiological and pathological stages and plasma environments, HDL can exhibit different structural features, such as discoid HDL and spherical rHDL.