Nitrogen signaling factor triggers a respiration-like gene expression program in fission yeast

Shin Ohsawa; Michaela Schwaiger; Vytautas Iesmantavicius; Rio Hashimoto; Hiromitsu Moriyama; Hiroaki Matoba; Go Hirai; Mikiko Sodeoka; Atsushi Hashimoto; Akihisa Matsuyama; Minoru Yoshida; Yoko Yashiroda; Marc Bühler

doi:10.1038/s44318-024-00224-z

Nitrogen signaling factor triggers a respiration-like gene expression program in fission yeast

Shin Ohsawa, Michaela Schwaiger, Vytautas Iesmantavicius, Rio Hashimoto, Hiromitsu Moriyama, Hiroaki Matoba, Go Hirai, Mikiko Sodeoka, Atsushi Hashimoto, Akihisa Matsuyama, Minoru Yoshida, Yoko Yashiroda, Marc Bühler

Chemo-Pharmaceutical Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

Microbes have evolved intricate communication systems that enable individual cells of a population to send and receive signals in response to changes in their immediate environment. In the fission yeast Schizosaccharomyces pombe, the oxylipin nitrogen signaling factor (NSF) is part of such communication system, which functions to regulate the usage of different nitrogen sources. Yet, the pathways and mechanisms by which NSF acts are poorly understood. Here, we show that NSF physically interacts with the mitochondrial sulfide:quinone oxidoreductase Hmt2 and that it prompts a change from a fermentation- to a respiration-like gene expression program without any change in the carbon source. Our results suggest that NSF activity is not restricted to nitrogen metabolism alone and that it could function as a rheostat to prepare a population of S. pombe cells for an imminent shortage of their preferred nutrients.

Original language	English
Pages (from-to)	4604-4624
Number of pages	21
Journal	EMBO Journal
Volume	43
Issue number	20
DOIs	https://doi.org/10.1038/s44318-024-00224-z
Publication status	Published - Oct 15 2024

All Science Journal Classification (ASJC) codes

General Neuroscience
Molecular Biology
General Biochemistry,Genetics and Molecular Biology
General Immunology and Microbiology

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title = "Nitrogen signaling factor triggers a respiration-like gene expression program in fission yeast",

abstract = "Microbes have evolved intricate communication systems that enable individual cells of a population to send and receive signals in response to changes in their immediate environment. In the fission yeast Schizosaccharomyces pombe, the oxylipin nitrogen signaling factor (NSF) is part of such communication system, which functions to regulate the usage of different nitrogen sources. Yet, the pathways and mechanisms by which NSF acts are poorly understood. Here, we show that NSF physically interacts with the mitochondrial sulfide:quinone oxidoreductase Hmt2 and that it prompts a change from a fermentation- to a respiration-like gene expression program without any change in the carbon source. Our results suggest that NSF activity is not restricted to nitrogen metabolism alone and that it could function as a rheostat to prepare a population of S. pombe cells for an imminent shortage of their preferred nutrients.",

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doi = "10.1038/s44318-024-00224-z",

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AU - Ohsawa, Shin

AU - Schwaiger, Michaela

AU - Iesmantavicius, Vytautas

AU - Hashimoto, Rio

AU - Moriyama, Hiromitsu

AU - Matoba, Hiroaki

AU - Hirai, Go

AU - Sodeoka, Mikiko

AU - Hashimoto, Atsushi

AU - Matsuyama, Akihisa

AU - Yoshida, Minoru

AU - Yashiroda, Yoko

AU - Bühler, Marc

N1 - Publisher Copyright: © The Author(s) 2024.

PY - 2024/10/15

Y1 - 2024/10/15

N2 - Microbes have evolved intricate communication systems that enable individual cells of a population to send and receive signals in response to changes in their immediate environment. In the fission yeast Schizosaccharomyces pombe, the oxylipin nitrogen signaling factor (NSF) is part of such communication system, which functions to regulate the usage of different nitrogen sources. Yet, the pathways and mechanisms by which NSF acts are poorly understood. Here, we show that NSF physically interacts with the mitochondrial sulfide:quinone oxidoreductase Hmt2 and that it prompts a change from a fermentation- to a respiration-like gene expression program without any change in the carbon source. Our results suggest that NSF activity is not restricted to nitrogen metabolism alone and that it could function as a rheostat to prepare a population of S. pombe cells for an imminent shortage of their preferred nutrients.

AB - Microbes have evolved intricate communication systems that enable individual cells of a population to send and receive signals in response to changes in their immediate environment. In the fission yeast Schizosaccharomyces pombe, the oxylipin nitrogen signaling factor (NSF) is part of such communication system, which functions to regulate the usage of different nitrogen sources. Yet, the pathways and mechanisms by which NSF acts are poorly understood. Here, we show that NSF physically interacts with the mitochondrial sulfide:quinone oxidoreductase Hmt2 and that it prompts a change from a fermentation- to a respiration-like gene expression program without any change in the carbon source. Our results suggest that NSF activity is not restricted to nitrogen metabolism alone and that it could function as a rheostat to prepare a population of S. pombe cells for an imminent shortage of their preferred nutrients.

KW - Cell-to-Cell Communication

KW - Fission Yeast

KW - Mitochondrial Respiration

KW - Nitrogen Catabolite Repression

KW - Nitrogen Signaling Factor

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Nitrogen signaling factor triggers a respiration-like gene expression program in fission yeast

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