The zinc-binding motif in tankyrases is required for the structural integrity and proper function of the catalytic domain

Abstract

AbstractTankyrases are ADP-ribosylating enzymes that regulate many physiological processes in the cell and they are therefore possible drug targets for cancer and fibrotic diseases. The catalytic ADP-ribosyl-transferase domain of tankyrases contains a unique zinc-binding motif of unknown function. Recently, this motif was suggested to be involved in the catalytic activity of tankyrases. In this work, we set out to study the effect of the zinc-binding motif on activity, stability and structure of human tankyrases. We generated mutants of human TNKS1 and TNKS2 abolishing the zinc-binding capabilities and characterized the proteins biochemically and biophysically in vitro. We further generated a crystal structure of TNKS2, in which the zinc ion was oxidatively removed. Our work shows that the zinc-binding motif in tankyrases is a crucial structural element which is particularly important for the structural integrity of the acceptor site. While mutation of the motif rendered TNKS1 inactive likely due to introduction of major structural defects, the TNKS2 mutant remained active and displayed a different activity profile compared to the wild type.