The Yeast Protein Kinase Sch9 Functions as a Central Nutrient-Responsive Hub That Calibrates Metabolic and Stress-Related Responses

Marco Caligaris; Belém Sampaio-Marques; Riko Hatakeyama; Benjamin Pillet; Paula Ludovico; Claudio  De Virgilio; Joris Winderickx; Raffaele Nicastro

doi:10.3390/jof9080787

The Yeast Protein Kinase Sch9 Functions as a Central Nutrient-Responsive Hub That Calibrates Metabolic and Stress-Related Responses

Marco Caligaris, Belém Sampaio-Marques , Riko Hatakeyama, Benjamin Pillet, Paula Ludovico, Claudio De Virgilio, Joris Winderickx, Raffaele Nicastro

Research output: Contribution to journal › Review article › peer-review

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Abstract

Yeast cells are equipped with different nutrient signaling pathways that enable them to sense the availability of various nutrients and adjust metabolism and growth accordingly. These pathways are part of an intricate network since most of them are cross-regulated and subject to feedback regulation at different levels. In yeast, a central role is played by Sch9, a protein kinase that functions as a proximal effector of the conserved growth-regulatory TORC1 complex to mediate information on the availability of free amino acids. However, recent studies established that Sch9 is more than a TORC1-effector as its activity is tuned by several other kinases. This allows Sch9 to function as an integrator that aligns different input signals to achieve accuracy in metabolic responses and stress-related molecular adaptations. In this review, we highlight the latest findings on the structure and regulation of Sch9, as well as its role as a nutrient-responsive hub that impacts on growth and longevity of yeast cells. Given that most key players impinging on Sch9 are well-conserved, we also discuss how studies on Sch9 can be instrumental to further elucidate mechanisms underpinning healthy aging in mammalians.

Original language	English
Article number	787
Number of pages	21
Journal	Journal of Fungi
Volume	9
Issue number	8
DOIs	https://doi.org/10.3390/jof9080787
Publication status	Published - Aug 2023

Bibliographical note

Funding Information:
This research was funded by the Canton of Fribourg and the Swiss National Science Foundation (310030_166474/184671) to C.D.V., the Fonds Wetenschappelijk Onderzoek (FWO)-Vlaanderen (G069413, G0C7222N) and KU Leuven (C14/17/063, C14/21/095) to J.W., Biotechnology and Biological Sciences Research Council (BB/V016334/1) to RH, and Portuguese National funds, through the Foundation for Science and Technology (FCT)—project UIDB/50026/2020 and UIDP/50026/2020 for P.L. and B.S.-M. B.S.-M. was funded by FCT, grant number DL 57/2016.

Data Availability Statement

Data sharing is not applicable to this article as no datasets were generated or analyzed in the course of the current study.

Keywords

Pho85
Pkh1
Pkh2
Pkh3
SNF1
Sch9
TORC1
lipid
longevity
stress

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Caligaris_etal_JoF_The_Yeast_Protein_VOR
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Cite this

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title = "The Yeast Protein Kinase Sch9 Functions as a Central Nutrient-Responsive Hub That Calibrates Metabolic and Stress-Related Responses",

abstract = "Yeast cells are equipped with different nutrient signaling pathways that enable them to sense the availability of various nutrients and adjust metabolism and growth accordingly. These pathways are part of an intricate network since most of them are cross-regulated and subject to feedback regulation at different levels. In yeast, a central role is played by Sch9, a protein kinase that functions as a proximal effector of the conserved growth-regulatory TORC1 complex to mediate information on the availability of free amino acids. However, recent studies established that Sch9 is more than a TORC1-effector as its activity is tuned by several other kinases. This allows Sch9 to function as an integrator that aligns different input signals to achieve accuracy in metabolic responses and stress-related molecular adaptations. In this review, we highlight the latest findings on the structure and regulation of Sch9, as well as its role as a nutrient-responsive hub that impacts on growth and longevity of yeast cells. Given that most key players impinging on Sch9 are well-conserved, we also discuss how studies on Sch9 can be instrumental to further elucidate mechanisms underpinning healthy aging in mammalians.",

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note = "Funding Information: This research was funded by the Canton of Fribourg and the Swiss National Science Foundation (310030_166474/184671) to C.D.V., the Fonds Wetenschappelijk Onderzoek (FWO)-Vlaanderen (G069413, G0C7222N) and KU Leuven (C14/17/063, C14/21/095) to J.W., Biotechnology and Biological Sciences Research Council (BB/V016334/1) to RH, and Portuguese National funds, through the Foundation for Science and Technology (FCT)—project UIDB/50026/2020 and UIDP/50026/2020 for P.L. and B.S.-M. B.S.-M. was funded by FCT, grant number DL 57/2016. ",

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AU - Sampaio-Marques , Belém

AU - Hatakeyama, Riko

AU - Pillet, Benjamin

AU - Ludovico, Paula

AU - De Virgilio, Claudio

AU - Winderickx, Joris

AU - Nicastro , Raffaele

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N2 - Yeast cells are equipped with different nutrient signaling pathways that enable them to sense the availability of various nutrients and adjust metabolism and growth accordingly. These pathways are part of an intricate network since most of them are cross-regulated and subject to feedback regulation at different levels. In yeast, a central role is played by Sch9, a protein kinase that functions as a proximal effector of the conserved growth-regulatory TORC1 complex to mediate information on the availability of free amino acids. However, recent studies established that Sch9 is more than a TORC1-effector as its activity is tuned by several other kinases. This allows Sch9 to function as an integrator that aligns different input signals to achieve accuracy in metabolic responses and stress-related molecular adaptations. In this review, we highlight the latest findings on the structure and regulation of Sch9, as well as its role as a nutrient-responsive hub that impacts on growth and longevity of yeast cells. Given that most key players impinging on Sch9 are well-conserved, we also discuss how studies on Sch9 can be instrumental to further elucidate mechanisms underpinning healthy aging in mammalians.

AB - Yeast cells are equipped with different nutrient signaling pathways that enable them to sense the availability of various nutrients and adjust metabolism and growth accordingly. These pathways are part of an intricate network since most of them are cross-regulated and subject to feedback regulation at different levels. In yeast, a central role is played by Sch9, a protein kinase that functions as a proximal effector of the conserved growth-regulatory TORC1 complex to mediate information on the availability of free amino acids. However, recent studies established that Sch9 is more than a TORC1-effector as its activity is tuned by several other kinases. This allows Sch9 to function as an integrator that aligns different input signals to achieve accuracy in metabolic responses and stress-related molecular adaptations. In this review, we highlight the latest findings on the structure and regulation of Sch9, as well as its role as a nutrient-responsive hub that impacts on growth and longevity of yeast cells. Given that most key players impinging on Sch9 are well-conserved, we also discuss how studies on Sch9 can be instrumental to further elucidate mechanisms underpinning healthy aging in mammalians.

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KW - stress

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JO - Journal of Fungi

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M1 - 787

ER -

The Yeast Protein Kinase Sch9 Functions as a Central Nutrient-Responsive Hub That Calibrates Metabolic and Stress-Related Responses

Abstract

Bibliographical note

Data Availability Statement

Keywords

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