The N Terminus of <i>Saccharomyces cerevisiae</i> Sst2p Plays an RGS-Domain-Independent, Mpt5p-Dependent Role in Recovery From Pheromone Arrest

The Ras-ERK/MAP (Mitogen-Activated Protein) kinase signaling pathway governs many cellular processes such as proliferation, differentiation, cell fate, homeostasis, and survival in all eukaryotes. Constitutive activation of the Ras-ERK/MAPK signaling pathway often leads to promotion of abnormal cell growth and tumorigenesis. Although the regulation of the Ras-ERK/MAPK signaling pathway by post-translational modification has been well elucidated, post-transcriptional regulations of this pathway are beginning to emerge in invertebrates and this work is extended to humans. In this review, we describe the conserved regulation of Ras-ERK/MAPK signaling by RNA-binding proteins (PUF, KH-domain, HuR, and LARP) and microRNAs (let-7 family miRNAs) and important implications for human diseases including cancers.

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Post‐transcriptional regulation of the Ras‐ERK/MAPK signaling pathway

Whelan

Hollis

Seok

et al. 2011

Journal Cellular Physiology

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Autocrine activation of the pheromone response pathway in matα2 - cells is attenuated by SST2- and ASG7-dependent mechanisms

Rivers

Sprague

2003

Mol Genet Genomics

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Yeast mat alpha2 mutants express both mating pheromones and both mating pheromone receptors. They show modest signaling in the pheromone response pathway, as revealed by increased levels of FUS1 transcript, yet are resistant to pheromone treatment. Together, these phenotypes suggest that alpha2- cells undergo autocrine activation of the pheromone response pathway, which is subsequently attenuated. We constructed a regulatable version of the alpha2 gene (GALalpha2) and showed that, upon loss of alpha2 activity, cells exhibit an initial robust response to pheromone that is attenuated within 3 h. We reasoned that the viability of alpha2- cells might be due to attenuation, and therefore performed a genome-wide synthetic lethal screen to identify potential adaptation components. We identified two genes, SST2 and ASG7. Loss of either of these attenuation components results in activation of the pheromone pathway in alpha2- cells. Loss of both proteins causes a more severe phenotype. Sst2 functions as a GTPase activating protein (GAP) for the Galpha subunit of the trimeric G protein. Asg7 is an a -cell specific protein that acts in concert with the alpha-cell specific a -factor receptor, Ste3, to inhibit signaling by Gbetagamma. Hence, our results suggest that mat alpha2 mutants mimic the intracellular signaling events that occur in newly fused zygotes.

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Function and regulation in MAPK signaling pathways: Lessons learned from the yeast Saccharomyces cerevisiae

Chen

Thorner

2007

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

566

578

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Signaling pathways that activate different mitogen-activated protein kinases (MAPKs) elicit many of the responses that are evoked in cells by changes in certain environmental conditions and upon exposure to a variety of hormonal and other stimuli. These pathways were first elucidated in the unicellular eukaryote Saccharomyces cerevisiae (budding yeast). Studies of MAPK pathways in this organism continue to be especially informative in revealing the molecular mechanisms by which MAPK cascades operate, propagate signals, modulate cellular processes, and are controlled by regulatory factors both internal to and external to the pathways. Here we highlight recent advances and new insights about MAPK-based signaling that have been made through studies in yeast, which provide lessons directly applicable to, and that enhance our understanding of, MAPK-mediated signaling in mammalian cells.

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The N Terminus of Saccharomyces cerevisiae Sst2p Plays an RGS-Domain-Independent, Mpt5p-Dependent Role in Recovery From Pheromone Arrest

Cited by 10 publications

References 51 publications

Post‐transcriptional regulation of the Ras‐ERK/MAPK signaling pathway

Post‐transcriptional regulation of the Ras‐ERK/MAPK signaling pathway

Autocrine activation of the pheromone response pathway in matα2 - cells is attenuated by SST2- and ASG7-dependent mechanisms

Function and regulation in MAPK signaling pathways: Lessons learned from the yeast Saccharomyces cerevisiae

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