Receptor-mediated endocytosis of aldehyde-modified proteins by sinusoidal liver cells

Abstract

Formaldehyde-treated serum albumin (f-Alb) is known to be endocytosed by sinusoidal lever cells via a receptor-mediated mechanism. The receptor purified from rat livers exhibited a molecular weight of 125,000, consisting of two glycoprotein components with molecular weights of 53,000 and 30,000, respectively. Experiments using antireceptor antibody demonstrated that the f-Alb receptor is distinct from the receptor that mediates endocytotic uptake of acetylated low-density lipoprotein, but they share a common property of being inhibited by several polyanions, suggesting that polyanion-sensitivity might play an important role in the scavenger function of simusoidal liver cells. Studies on the ligand specificity of this receptor revealed that a covalent modification by formaldehyde of a limited number of lysine residues in albumin has led to the formation of a receptor-recognition domain(s). Furthermore, in addition to formaldehyde, the ligand activity was also generated with albumin modified by other aliphatic aldehydes, such as glycoaldehyde and glyceraldehyde. This phenomenon was extended to several proteins other than albumin. These data suggest therefore that the f-Alb receptor originally described as being specific for albumin modified by formaldehyde may play a general role as a scavenger receptor for aldehyde-modified proteins.