Lipoprotein receptors play a central role in lipoprotein metabolism and a major role in cholesterol homeostasis. The most completely characterized lipoprotein receptor is the LDL (low density lipoprotein) or apo-B,E(LDL) receptor. The apo-B,E(LDL) receptor is present on both hepatic and extrahepatic cells and is responsible for the metabolism of a major portion of plasma LDL. Binding and internalization of LDL particles by this receptor initiates a series of intracellular events, resulting in the regulation of cellular cholesterol metabolism. In addition to the apo-B on LDL interacting with the apo-B,E(LDL) receptor, the apo-E on apo-E-containing lipoproteins is also capable of interacting and regulating intracellular cholesterol metabolism. The liver has also been shown to contain a second distinct lipoprotein receptor that is specific for apo-E. This receptor has been demonstrated on hepatic membranes from humans, dogs, and swine and is referred to as the apo-E receptor. This receptor may be responsible for the clearance of chylomicron remnants from plasma by the liver and may participate in reverse cholesterol transport. Thus, apo-E is a major determinant in lipoprotein metabolism and cholesterol homeostasis. The receptor binding properties of apo-E are well characterized, and a series of structural variants, several with lipoprotein binding defects, have been identified. Studies of the binding activity of these receptor-defective apo-E variants have helped to define the receptor binding domain of apo-E. These results, in conjunction with receptor binding studies with various apo-E fragments and with an apo-E monoclonal antibody that inhibits receptor binding, have demonstrated that the receptor binding domain is located in the center of the molecule between residues 140 and 160.
13C NMR evidence that substitution of glutamine for arginine 3500 in familial defective apolipoprotein B-100 disrupts the conformation of the receptor-binding domain.
