Analysis of Ligand-Receptor Interactions Using Bioluminescent TNF Superfamily (TNFSF) Ligand Fusion Proteins.

Abstract

Quantitative analysis of the binding of tumor necrosis factor (TNF) superfamily ligands (TNFLs) to TNF receptor superfamily receptors (TNFRs) is of crucial relevance for the understanding of the mechanisms of TNFR activation. Ligand binding studies are also a basic method required for the development and characterization of agonists and antagonists of TNFRs. TNFL-induced formation of fully active TNFR signaling complexes is a complex process. It involves not only reorganization of monomeric and inactive pre-assembled TNFR complexes into trimeric liganded TNFR complexes but also the secondary interaction of the latter. Moreover, various factors, e.g., TNFR modification, special membrane domains, or accessory proteins, may affect TNFL-TNFR interactions in a TNFR type-specific manner. Widely used cell-free methods for the analysis of protein-protein interactions are thus of limited value for the analysis of TNFL-TNFR interactions and makes therefore in this case cellular binding studies to the method of choice. We and others observed that the genetic fusion of monomeric protein domains to the N-terminus of soluble TNFLs has typically no effect on activity and TNFR binding. We exploited this to generate bioluminescent TNFL fusion proteins which allow simple, sensitive, and highly reproducible cellular binding studies for the investigation of TNFL-TNFR interactions. Here, we report detailed protocols for the production of TNFL fusion proteins with the luciferase of Gaussia princeps and the use of these fusion proteins in various types of cellular binding studies.