Activation is only the beginning: mechanisms that tune kinase substrate specificity.

Abstract

Kinases are master coordinators of cellular processes, but to appropriately respond to the changing cellular environment, each kinase must recognize its substrates, target only those proteins on the correct amino acids, and in many cases, only phosphorylate a subset of potential substrates at any given time. Therefore, regulation of kinase substrate specificity is paramount to proper cellular function, and multiple mechanisms can be employed to achieve specificity. At the smallest scale, characteristics of the substrate such as its linear peptide motif and three-dimensional structure must be complementary to the substrate binding surface of the kinase. This surface is dynamically shaped by the activation loop and surrounding region of the substrate binding groove, which can adopt multiple conformations, often influenced by post-translational modifications. Domain-scale conformational changes can also occur, such as the interaction with pseudosubstrate domains or other regulatory domains in the kinase. Kinases may multimerize or form complexes with other proteins that influence their structure, function, and/or subcellular localization at different times and in response to different signals. This review will illustrate these mechanisms by examining recent work on four serine/threonine kinases: Aurora B, CaMKII, GSK3β, and CK1δ. We find that these mechanisms are often shared by this diverse set of kinases in diverse cellular contexts, so they may represent common strategies that cells use to regulate cell signaling, and it will be enlightening to continue to learn about the depth and robustness of kinase substrate specificity in additional systems.