Constitutively Active 1 RAS in S. Pombe Causes Persistent Cdc42 Signalling But Only Transient MAPK Activation

Abstract

Summary The small GTPase RAS is a signalling hub for many pathways and oncogenic human RAS mutations are assumed to over-activate all of its downstream pathways. We tested this assumption in fission yeast, where, RAS-mediated pheromone signalling (PS) activates the MAPKSpk1 and Cdc42 pathways. Unexpectedly, we found that constitutively active Ras1.G17V induced immediate but only transient MAPKSpk1 activation, whilst Cdc42 activation persisted. Immediate but transient MAPKSpk1 activation was also seen in the deletion mutant of Cdc42-GEFScd1, a Cdc42 activator. We built a mathematical model using PS negative-feedback circuits and competition between the two Ras1 effectors, MAPKKKByr2 and Cdc42-GEFScd1. The model robustly predicted the MAPKSpk1 activation dynamics of an additional 21 PS mutants. Supporting the model, we showed that a recombinant Cdc42-GEFScd1 fragment competes with MAPKKKByr2 for Ras1 binding. Our study has established a concept that the constitutively active RAS propagates differently to downstream pathways where the system prevents MAPK overactivation. Highlights Constitutively active Ras1.GV prolongs Cdc42 activation in S. pombe pheromone signalling Ras1.GV results in an immediate but only transient MAPKSpk1 activation The RAS effector pathways MAPKSpk1 and Cdc42 compete with each other for active Ras1 Predictive modelling explains MAPKSpk1 activation dynamics in 24 signaling-mutants eTOC Blurb S. pombe Ras1 activates the MAPKSpk1 and Cdc42 pathways. Kelsall et al. report that the constitutively active Ras1.G17V mutation, which causes morphological anomalies, induces prolonged Cdc42 activation but only a transient MAPKSpk1 activation followed by attenuation. Mathematical modelling and biochemical data suggest a competition between the MAPKSpk1 and Cdc42 pathways for active Ras1.