Constitutively active RAS prolongs Cdc42 signalling while attenuating MAPK signalling during fission yeast mating

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The study investigated how constitutively active RAS (ras1.G17V) differentially regulates pheromone signaling in fission yeast, focusing on downstream activation of the MAPKSpk1 and Cdc42 pathways. Using cell signaling experiments together with a mathematical model of pheromone signaling negative-feedback circuits and competition between Ras1 effectors (MAPKKKByr2 and Cdc42-GEFScd1), the authors found that MAPKSpk1 activation was attenuated similarly to wild type, while Cdc42 activation was prolonged. The model also robustly predicted MAPKSpk1 dynamics for an additional 20 pheromone signaling mutants, and experiments supported key model assumptions via Ras-binding competition and pathway inhibition by overexpression of Ras binding domains. This paper does not explicitly discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.

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Abstract

The small GTPase RAS is a signalling hub activating multiple pathways, which may respond differently to a constitutively active RAS mutation. We explored this issue using fission yeast, where RAS-mediated pheromone signalling (PS) activates the MAPK Spk1 and Cdc42 pathways. We observed that in cells with the yeast RAS mutant, ras1.G17V , the MAPK Spk1 activation was attenuated similarly to that in wildtype cells, whereas Cdc42 activation was prolonged. We built a mathematical model implementing PS negative-feedback circuits and competition between the two Ras1 effectors, MAPKKK Byr2 and Cdc42-GEF Scd1 . The model robustly predicted the MAPK Spk1 activation dynamics of an additional 20 PS mutants. In support of the model, a recombinant Cdc42-GEF Scd1 competed with MAPKKK Byr2 for Ras1 binding and overexpression of the Ras binding domain of either Cdc42-GEF Scd1 or MAPKKK Byr2 inhibited both downstream pathways. Our study has established that the constitutively active RAS signalling propagates differently to downstream pathways where the system prevents MAPK overactivation.
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Abstract The small GTPase RAS is a signalling hub activating multiple pathways, which may respond differently to a constitutively active RAS mutation. We explored this issue using fission yeast, where RAS-mediated pheromone signalling (PS) activates the MAPKSpk1 and Cdc42 pathways. We observed that in cells with the yeast RAS mutant, ras1.G17V, the MAPKSpk1 activation was attenuated similarly to that in wildtype cells, whereas Cdc42 activation was prolonged. We built a mathematical model implementing 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 20 PS mutants. In support of the model, a recombinant Cdc42-GEFScd1 competed with MAPKKKByr2 for Ras1 binding and overexpression of the Ras binding domain of either Cdc42-GEFScd1 or MAPKKKByr2 inhibited both downstream pathways. Our study has established that the constitutively active RAS signalling propagates differently to downstream pathways where the system prevents MAPK overactivation. Competing Interest Statement The authors have declared no competing interest.

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License: CC-BY-4.0