A novel β-endorphin binding protein: Complement S protein (= vitronectin) exhibits specific non-opioid binding sites for β-endorphin upon interaction with heparin or surfaces

Abstract

Human beta-endorphin (1-31) (beta H-endorphin) was found to specifically interact with purified complement S protein from human plasma. As found by chemical cross-linking beta H-endorphin bound to both, the 65- and 75-kDa molecular mass forms of S protein. The interaction of S protein with heparin as well as the adsorption of S protein to surfaces led to an almost 10-fold increase of specific binding which was due to the exposure of further beta H-endorphin-binding sites. The interaction of beta H-endorphin with S protein bore characteristics of a ligand-receptor interaction, such as time dependence, reversibility, high affinity, saturability, and structural specificity and was mediated through the non-opioid COOH terminus of the beta H-endorphin molecule. beta H-Endorphin binding to S protein was observed at physiological pH or cation concentrations, indicating that the interaction may well occur in vivo. Our results provide conclusive evidence that interactions of S protein with very different effectors led to similar conformational changes which uniformly resulted in exposure of a highly specific beta H-endorphin binding domain on S protein. With S protein as major beta H-endorphin-binding protein in the periphery, the molecular basis of a widespread system of humoral target sites of the neuroendocrine effector appears to be established. In view of S protein involvement in processes of inflammation and wound repair and beta-endorphin effects on immunocompetent cells, the demonstrated S protein-beta H-endorphin interaction appears to be of considerable functional significance.