Selectivity of CDC25 Homology Domain-Containing Guanine Nucleotide Exchange Factors

Abstract

The Ras family of small G-proteins plays an essential role in the regulation of a variety of signal transduction processes, ranging from cell cycle control to the regulation of exocytosis. Signalling by the Ras G-proteins is initiated by the CDC25 homology domain (CDC25-HD) containing guanine nucleotide exchange factors (GEFs); each GEF, with its specific selectivity profile towards G-proteins, commonly acts on only a small subset of the Ras family members. Thus, GEFs play a pivotal part in establishing the activation of the downstream signalling routes. The structural basis for the establishment of selectivity in the GEF–G-protein interaction is only partially understood, and several controversies on the selectivity of GEFs are discussed in the literature. In the present study, we undertook a systematic approach to determine the selectivity of CDC25-HD for members of the Ras family. We generated a data set of 126 pairs using a standardised in vitro approach encompassing purified recombinant proteins, and a comprehensive mutational study analysed the basis of the selectivity. Together, these data highlight the distinct selectivity of various GEFs and allow for predictions of untested combinations of GEFs and G-proteins.