Herbal terpenoids activate autophagy and mitophagy through modulation of bioenergetics and protect from metabolic stress, sarcopenia and epigenetic aging

Gabriele Civiletto; Dario Brunetti; Giulia Lizzo; Kamila Muller; Guillaume E. Jacot; Ioanna Daskalaki; Federico Sizzano; Minji Huh; Ivano di Meo; Maria Nicol Colombo; José L. Sanchez-Garcia; Bertrand J. Bétrisey; Alix Zollinger; Patricia Lino; Christopher Neal; Anne-Laure Egesipe; Joy Richard; Myriam Chimen; Aurélie Hermant; Benjamin Brinon; Lorane Texari; Sylviane Metairon; Mohammed Adnan Qureshi; Dhaval S. Patel; Siva A. Vanapalli; Marco Malavolta; Arwen W. Gao; Amelia Lalou; Mauro Provinciali; Fiorenza Orlando; Valeria Tiranti; Robert T. Brooke; Steve Horvath; Johan Auwerx; Jerome N. Feige; Philipp Gut

doi:10.1038/s43587-025-00957-4

Herbal terpenoids activate autophagy and mitophagy through modulation of bioenergetics and protect from metabolic stress, sarcopenia and epigenetic aging

Gabriele Civiletto^*
, Dario Brunetti
, Giulia Lizzo
, Kamila Muller
, Guillaume E. Jacot
, Ioanna Daskalaki
, Federico Sizzano
, Minji Huh
, Ivano di Meo
, Maria Nicol Colombo
, José L. Sanchez-Garcia
, Bertrand J. Bétrisey
, Alix Zollinger
, Patricia Lino
, Christopher Neal
, Anne-Laure Egesipe
, Joy Richard
, Myriam Chimen
, Aurélie Hermant
, Benjamin Brinon

Lorane Texari, Sylviane Metairon, Mohammed Adnan Qureshi, Dhaval S. Patel, Siva A. Vanapalli, Marco Malavolta, Arwen W. Gao, Amelia Lalou, Mauro Provinciali, Fiorenza Orlando, Valeria Tiranti, Robert T. Brooke, Steve Horvath, Johan Auwerx, Jerome N. Feige^*, Philipp Gut^*

^*Corresponding author for this work

Nestle
Health
IRCCS Fondazione Istituto Neurologico Carlo Besta - Milano
University of Milan
Swiss Federal Institute of Technology Lausanne
NemaLife Inc
Texas Tech University
Istituto Nazionale di Riposo e Cura per Anziani - Ancona
Marche Polytechnic University
University of Amsterdam
Epigenetic Clock Development Foundation
University of California at Los Angeles
Altos Labs

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

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Abstract

Small molecular food components contribute to the health benefits of diets rich in fruits, vegetables, herbs and spices. The cellular mechanisms by which noncaloric bioactives promote healthspan are not well understood, limiting their use in disease prevention. Here, we deploy a whole-organism, high-content screen in zebrafish to profile food-derived compounds for activation of autophagy, a cellular quality control mechanism that promotes healthy aging. We identify thymol and carvacrol as activators of autophagy and mitophagy through a transient dampening of the mitochondrial membrane potential. Chemical stabilization of thymol-induced mitochondrial depolarization blocks mitophagy activation, suggesting a mechanism originating from the mitochondrial membrane. Supplementation with thymol prevents excess liver fat accumulation in a mouse model of diet-induced obesity, improves pink-1-dependent heat stress resilience in Caenorhabditis elegans, and slows the decline of skeletal muscle performance while delaying epigenetic aging in SAMP8 mice. Thus, terpenoids from common herbs promote autophagy during aging and metabolic overload, making them attractive molecules for nutrition-based healthspan promotion.

Original language	English
Pages (from-to)	2003-2021
Number of pages	19
Journal	Nature Aging
Volume	5
Issue number	10
Early online date	2025
DOIs	https://doi.org/10.1038/s43587-025-00957-4
Publication status	Published - Oct 2025

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Herbal-terpenoids-activate-autophagy-and-mitophagy-through-modulation-of-bioenergetics-and-protect-from-metabolic-stress.pdfFinal published version, 25.3 MBLicence: CC BY

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Civiletto, G., Brunetti, D., Lizzo, G., Muller, K., Jacot, G. E., Daskalaki, I., Sizzano, F., Huh, M., di Meo, I., Colombo, M. N., Sanchez-Garcia, J. L., Bétrisey, B. J., Zollinger, A., Lino, P., Neal, C., Egesipe, A.-L., Richard, J., Chimen, M., Hermant, A., ... Gut, P. (2025). Herbal terpenoids activate autophagy and mitophagy through modulation of bioenergetics and protect from metabolic stress, sarcopenia and epigenetic aging. Nature Aging, 5(10), 2003-2021. https://doi.org/10.1038/s43587-025-00957-4

@article{2b93cfdf099b47ba981c0f79fa4830af,

title = "Herbal terpenoids activate autophagy and mitophagy through modulation of bioenergetics and protect from metabolic stress, sarcopenia and epigenetic aging",

abstract = "Small molecular food components contribute to the health benefits of diets rich in fruits, vegetables, herbs and spices. The cellular mechanisms by which noncaloric bioactives promote healthspan are not well understood, limiting their use in disease prevention. Here, we deploy a whole-organism, high-content screen in zebrafish to profile food-derived compounds for activation of autophagy, a cellular quality control mechanism that promotes healthy aging. We identify thymol and carvacrol as activators of autophagy and mitophagy through a transient dampening of the mitochondrial membrane potential. Chemical stabilization of thymol-induced mitochondrial depolarization blocks mitophagy activation, suggesting a mechanism originating from the mitochondrial membrane. Supplementation with thymol prevents excess liver fat accumulation in a mouse model of diet-induced obesity, improves pink-1-dependent heat stress resilience in Caenorhabditis elegans, and slows the decline of skeletal muscle performance while delaying epigenetic aging in SAMP8 mice. Thus, terpenoids from common herbs promote autophagy during aging and metabolic overload, making them attractive molecules for nutrition-based healthspan promotion.",

author = "Gabriele Civiletto and Dario Brunetti and Giulia Lizzo and Kamila Muller and Jacot, \{Guillaume E.\} and Ioanna Daskalaki and Federico Sizzano and Minji Huh and \{di Meo\}, Ivano and Colombo, \{Maria Nicol\} and Sanchez-Garcia, \{Jos{\'e} L.\} and B{\'e}trisey, \{Bertrand J.\} and Alix Zollinger and Patricia Lino and Christopher Neal and Anne-Laure Egesipe and Joy Richard and Myriam Chimen and Aur{\'e}lie Hermant and Benjamin Brinon and Lorane Texari and Sylviane Metairon and Qureshi, \{Mohammed Adnan\} and Patel, \{Dhaval S.\} and Vanapalli, \{Siva A.\} and Marco Malavolta and Gao, \{Arwen W.\} and Amelia Lalou and Mauro Provinciali and Fiorenza Orlando and Valeria Tiranti and Brooke, \{Robert T.\} and Steve Horvath and Johan Auwerx and Feige, \{Jerome N.\} and Philipp Gut",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = oct,

doi = "10.1038/s43587-025-00957-4",

language = "English",

volume = "5",

pages = "2003--2021",

journal = "Nature Aging",

issn = "2662-8465",

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Civiletto, G, Brunetti, D, Lizzo, G, Muller, K, Jacot, GE, Daskalaki, I, Sizzano, F, Huh, M, di Meo, I, Colombo, MN, Sanchez-Garcia, JL, Bétrisey, BJ, Zollinger, A, Lino, P, Neal, C, Egesipe, A-L, Richard, J, Chimen, M, Hermant, A, Brinon, B, Texari, L, Metairon, S, Qureshi, MA, Patel, DS, Vanapalli, SA, Malavolta, M, Gao, AW, Lalou, A, Provinciali, M, Orlando, F, Tiranti, V, Brooke, RT, Horvath, S, Auwerx, J, Feige, JN & Gut, P 2025, 'Herbal terpenoids activate autophagy and mitophagy through modulation of bioenergetics and protect from metabolic stress, sarcopenia and epigenetic aging', Nature Aging, vol. 5, no. 10, pp. 2003-2021. https://doi.org/10.1038/s43587-025-00957-4

TY - JOUR

T1 - Herbal terpenoids activate autophagy and mitophagy through modulation of bioenergetics and protect from metabolic stress, sarcopenia and epigenetic aging

AU - Civiletto, Gabriele

AU - Brunetti, Dario

AU - Lizzo, Giulia

AU - Muller, Kamila

AU - Jacot, Guillaume E.

AU - Daskalaki, Ioanna

AU - Sizzano, Federico

AU - Huh, Minji

AU - di Meo, Ivano

AU - Colombo, Maria Nicol

AU - Sanchez-Garcia, José L.

AU - Bétrisey, Bertrand J.

AU - Zollinger, Alix

AU - Lino, Patricia

AU - Neal, Christopher

AU - Egesipe, Anne-Laure

AU - Richard, Joy

AU - Chimen, Myriam

AU - Hermant, Aurélie

AU - Brinon, Benjamin

AU - Texari, Lorane

AU - Metairon, Sylviane

AU - Qureshi, Mohammed Adnan

AU - Patel, Dhaval S.

AU - Vanapalli, Siva A.

AU - Malavolta, Marco

AU - Gao, Arwen W.

AU - Lalou, Amelia

AU - Provinciali, Mauro

AU - Orlando, Fiorenza

AU - Tiranti, Valeria

AU - Brooke, Robert T.

AU - Horvath, Steve

AU - Auwerx, Johan

AU - Feige, Jerome N.

AU - Gut, Philipp

PY - 2025/10

Y1 - 2025/10

N2 - Small molecular food components contribute to the health benefits of diets rich in fruits, vegetables, herbs and spices. The cellular mechanisms by which noncaloric bioactives promote healthspan are not well understood, limiting their use in disease prevention. Here, we deploy a whole-organism, high-content screen in zebrafish to profile food-derived compounds for activation of autophagy, a cellular quality control mechanism that promotes healthy aging. We identify thymol and carvacrol as activators of autophagy and mitophagy through a transient dampening of the mitochondrial membrane potential. Chemical stabilization of thymol-induced mitochondrial depolarization blocks mitophagy activation, suggesting a mechanism originating from the mitochondrial membrane. Supplementation with thymol prevents excess liver fat accumulation in a mouse model of diet-induced obesity, improves pink-1-dependent heat stress resilience in Caenorhabditis elegans, and slows the decline of skeletal muscle performance while delaying epigenetic aging in SAMP8 mice. Thus, terpenoids from common herbs promote autophagy during aging and metabolic overload, making them attractive molecules for nutrition-based healthspan promotion.

AB - Small molecular food components contribute to the health benefits of diets rich in fruits, vegetables, herbs and spices. The cellular mechanisms by which noncaloric bioactives promote healthspan are not well understood, limiting their use in disease prevention. Here, we deploy a whole-organism, high-content screen in zebrafish to profile food-derived compounds for activation of autophagy, a cellular quality control mechanism that promotes healthy aging. We identify thymol and carvacrol as activators of autophagy and mitophagy through a transient dampening of the mitochondrial membrane potential. Chemical stabilization of thymol-induced mitochondrial depolarization blocks mitophagy activation, suggesting a mechanism originating from the mitochondrial membrane. Supplementation with thymol prevents excess liver fat accumulation in a mouse model of diet-induced obesity, improves pink-1-dependent heat stress resilience in Caenorhabditis elegans, and slows the decline of skeletal muscle performance while delaying epigenetic aging in SAMP8 mice. Thus, terpenoids from common herbs promote autophagy during aging and metabolic overload, making them attractive molecules for nutrition-based healthspan promotion.

UR - https://www.scopus.com/pages/publications/105016846248

U2 - 10.1038/s43587-025-00957-4

DO - 10.1038/s43587-025-00957-4

M3 - Article

C2 - 40993327

SN - 2662-8465

VL - 5

SP - 2003

EP - 2021

JO - Nature Aging

JF - Nature Aging

IS - 10

ER -

Herbal terpenoids activate autophagy and mitophagy through modulation of bioenergetics and protect from metabolic stress, sarcopenia and epigenetic aging

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