Nuclear receptor signaling via NHR-49/ MDT-15 regulates stress resilience and proteostasis in response to reproductive and metabolic cues

Ambre J. Sala; Rogan A. Grant; Ghania Imran; Claire Morton; Renee M. Brielmann; Szymon Gorgon; Jennifer Watts; Laura C. Bott; Richard I. Morimoto

doi:10.1101/gad.351829.124

Nuclear receptor signaling via NHR-49/ MDT-15 regulates stress resilience and proteostasis in response to reproductive and metabolic cues

Ambre J. Sala^*, Rogan A. Grant, Ghania Imran, Claire Morton, Renee M. Brielmann, Szymon Gorgon, Jennifer Watts, Laura C. Bott, Richard I. Morimoto^*

^*Corresponding author for this work

Molecular Biosciences

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

1 Scopus citations

Abstract

The ability to sense and respond to proteotoxic insults declines with age, leaving cells vulnerable to chronic and acute stressors. Reproductive cues modulate this decline in cellular proteostasis to influence organismal stress resilience in Caenorhabditis elegans. We previously uncovered a pathway that links the integrity of developing embryos to somatic health in reproductive adults. Here, we show that the nuclear receptor NHR-49, an ortholog of mammalian peroxisome proliferator-activated receptor α (PPARα), regulates stress resilience and proteostasis downstream from embryo integrity and other pathways that influence lipid homeostasis and upstream of HSF-1. Disruption of the vitelline layer of the embryo envelope, which activates a proteostasis-enhancing intertissue pathway in somatic cells, triggers changes in lipid catabolism gene expression that are accompanied by an increase in fat stores. NHR-49, together with its coactivator, MDT-15, contributes to this remodeling of lipid metabolism and is also important for the elevated stress resilience mediated by inhibition of the embryonic vitelline layer. Our findings indicate that NHR-49 also contributes to stress resilience in other pathways known to change lipid homeostasis, including reduced insulin-like signaling and fasting, and that increased NHR-49 activity is sufficient to improve proteostasis and stress resilience in an HSF-1-dependent manner. Together, our results establish NHR-49 as a key regulator that links lipid homeostasis and cellular resilience to proteotoxic stress.

Original language	English (US)
Pages (from-to)	380-392
Number of pages	13
Journal	Genes and Development
Volume	38
Issue number	9-10
DOIs	https://doi.org/10.1101/gad.351829.124
State	Published - 2024

Funding

We thank Stefan Taubert and Arjumand Ghazi for sharing strains and plasmids, Peter Douglas for experimental advice, and Jian Li, Ilya Ruvinsky, and Erin Aprison for comments on the manuscript. We also thank the Keck Biophysics, High-Throughput Analysis, and Biological Imaging Facilities at Northwestern University for access to equipment. Some of the C. elegans strains were provided by the Caenorhabditis Genetics Center, which is funded by National Institutes of Health (NIH) Office of Research Infrastructure Programs (P40-OD010440). This work was supported by an ATIP-Avenir grant (Centre National de la Recherche Scientifique Biology) to A.J.S., grants from the NIH (RF1AG057296 and P01AG054407) and the Daniel F. and Ada L. Rice Foundation to R.I.M., NIH grant T32AG020506-18 to R.A.G., NIH grant R01GM13883 to J.W., and a postdoctoral fellowship from the American Federation for Aging Research to L.C.B.

Keywords

HSF-1
PPARα
heat shock response
protein aggregation]

ASJC Scopus subject areas

General Medicine

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10.1101/gad.351829.124

Cite this

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title = "Nuclear receptor signaling via NHR-49/ MDT-15 regulates stress resilience and proteostasis in response to reproductive and metabolic cues",

abstract = "The ability to sense and respond to proteotoxic insults declines with age, leaving cells vulnerable to chronic and acute stressors. Reproductive cues modulate this decline in cellular proteostasis to influence organismal stress resilience in Caenorhabditis elegans. We previously uncovered a pathway that links the integrity of developing embryos to somatic health in reproductive adults. Here, we show that the nuclear receptor NHR-49, an ortholog of mammalian peroxisome proliferator-activated receptor α (PPARα), regulates stress resilience and proteostasis downstream from embryo integrity and other pathways that influence lipid homeostasis and upstream of HSF-1. Disruption of the vitelline layer of the embryo envelope, which activates a proteostasis-enhancing intertissue pathway in somatic cells, triggers changes in lipid catabolism gene expression that are accompanied by an increase in fat stores. NHR-49, together with its coactivator, MDT-15, contributes to this remodeling of lipid metabolism and is also important for the elevated stress resilience mediated by inhibition of the embryonic vitelline layer. Our findings indicate that NHR-49 also contributes to stress resilience in other pathways known to change lipid homeostasis, including reduced insulin-like signaling and fasting, and that increased NHR-49 activity is sufficient to improve proteostasis and stress resilience in an HSF-1-dependent manner. Together, our results establish NHR-49 as a key regulator that links lipid homeostasis and cellular resilience to proteotoxic stress.",

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author = "Sala, {Ambre J.} and Grant, {Rogan A.} and Ghania Imran and Claire Morton and Brielmann, {Renee M.} and Szymon Gorgon and Jennifer Watts and Bott, {Laura C.} and Morimoto, {Richard I.}",

note = "Publisher Copyright: {\textcopyright} 2024 Sala et al. This article, published in Genes & Development, is available under a Creative Commons License.",

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AU - Morton, Claire

AU - Brielmann, Renee M.

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AU - Watts, Jennifer

AU - Bott, Laura C.

AU - Morimoto, Richard I.

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Nuclear receptor signaling via NHR-49/ MDT-15 regulates stress resilience and proteostasis in response to reproductive and metabolic cues

Abstract

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Keywords

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