Activity of Tumor Necrosis Factor α Is Modulated by Dynamic Conformational Rearrangements.

The homotrimeric ligand tumor necrosis factor α (TNFα) is a key cytokine and immune regulator; however, when deregulated, it leads to several major chronic inflammatory diseases. Perturbation of the protein-protein interface has proven to be an efficient strategy to inactivate TNFα, but the atomic-resolution mechanism of its inactivation remains poorly understood. Here, we probe the solution structure and dynamics of active and inactive TNFα using NMR spectroscopy. The data reveal that TNFα undergoes motions on different time scales. Furthermore, by site-directed mutagenesis of residues at the trimerization interface and by targeting the interface with a low molecular weight inhibitor, we show that TNFα retains its overall structure and trimeric state. However, upon perturbation, TNFα exhibits increased conformational dynamics spanning from the trimerization interface to the regions mediating receptor binding. These findings provide novel insights into the inactivation mechanism of TNFα and the basis for strategies to target TNFα activity.