Methionine-triggered growth arrest reveals activation of Gcn2 by methionine transporter endocytosis

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The paper studies how yeast cells respond to stimulation with excess amino acids, focusing on nutrient sensing and growth control mechanisms involving TORC1 and the Gcn2 pathway. Using high levels of Ile, Phe, and Met, the authors show that cells slow growth and undergo G1 arrest, alongside autophagy induction and decreased TORC1 activity, resembling aspects of a starvation response. For excess Met specifically, growth arrest, autophagy induction, and TORC1 dampening require Gcn2, and Gcn2 activation depends on endocytosis of the methionine transporter Mup1. The study’s scope is limited to responses in this experimental system and does not address broader organismal contexts or other transporter pathways beyond the methionine case. The 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

Cell growth checkpoints require coordination between multiple sensing and signaling systems to ensure that cells only proceed with growth and division when conditions are favorable and adequate resources are available. This coordination between nutrient sensing and growth signaling is fundamental to understanding how nutrient supply regulates the cellular metabolic economy. Much of our current understanding is driven by studies that examine the cellular response to nutrient deprivation. For example, TORC1 activity promotes cell growth when amino acids are available, but amino acid deprivation decreases TORC1 activity resulting in activation of catabolic activities. In this study, we examine how cells respond to stimulation with excess amino acids. We report that stimulation with excess Ile, Phe and Met slows cell growth and triggers a G1 cell cycle arrest. Similar to a starvation response, surplus Ile, Phe and Met induce autophagy and trigger decreased TORC1 activity. In the case of stimulation with excess Met, the Gcn2 pathway is required for growth arrest, autophagy induction, and TORC1 dampening. Unexpectedly, Gcn2 is activated by stimulation with excess Met, and this activation requires endocytosis of the methionine transporter Mup1. These results indicate that endocytosis of an amino acid transporter is required to activate the Gcn2 pathway, providing an example for how nutrient transporter trafficking may function as a sensor contributing to cell growth control.
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Abstract Cell growth checkpoints require coordination between multiple sensing and signaling systems to ensure that cells only proceed with growth and division when conditions are favorable and adequate resources are available. This coordination between nutrient sensing and growth signaling is fundamental to understanding how nutrient supply regulates the cellular metabolic economy. Much of our current understanding is driven by studies that examine the cellular response to nutrient deprivation. For example, TORC1 activity promotes cell growth when amino acids are available, but amino acid deprivation decreases TORC1 activity resulting in activation of catabolic activities. In this study, we examine how cells respond to stimulation with excess amino acids. We report that stimulation with excess Ile, Phe and Met slows cell growth and triggers a G1 cell cycle arrest. Similar to a starvation response, surplus Ile, Phe and Met induce autophagy and trigger decreased TORC1 activity. In the case of stimulation with excess Met, the Gcn2 pathway is required for growth arrest, autophagy induction, and TORC1 dampening. Unexpectedly, Gcn2 is activated by stimulation with excess Met, and this activation requires endocytosis of the methionine transporter Mup1. These results indicate that endocytosis of an amino acid transporter is required to activate the Gcn2 pathway, providing an example for how nutrient transporter trafficking may function as a sensor contributing to cell growth control. Competing Interest Statement The authors have declared no competing interest.

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europepmc
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License: CC-BY-4.0