Metabolomics

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Peripheral modulation of antidepressant targets MAO-B and GABAAR by harmol induces mitohormesis and delays aging in preclinical models


ABSTRACT: Reversible and sub-lethal stresses to the mitochondria elicit a program of compensatory responses that ultimately improve mitochondrial function, a conserved anti-aging mechanism termed mitohormesis. Here, we show that harmol, a member of the beta-carbolines family with anti-depressant properties, improves mitochondrial function and metabolic parameters, and extends healthspan. Treatment with harmol induces a transient mitochondrial depolarization, a strong mitophagy response, and the AMPK compensatory pathway both in cultured C2C12 myotubes and in male mouse liver, brown adipose tissue and muscle, even though harmol crosses poorly the blood-brain barrier. Mechanistically, simultaneous modulation of the targets of harmol monoamine-oxidase B and GABA-A receptor reproduces harmol-induced mitochondrial improvements. Diet-induced pre-diabetic male mice improve their glucose tolerance, liver steatosis and insulin sensitivity after treatment with harmol. Harmol or a combination of monoamine oxidase B and GABA-A receptor modulators extend the lifespan of hermaphrodite Caenorhabditis elegans or female Drosophila melanogaster. Finally, two-year-old male and female mice treated with harmol exhibit delayed frailty onset with improved glycemia, exercise performance and strength. Our results reveal that peripheral targeting of monoamine oxidase B and GABA-A receptor, common antidepressant targets, extends healthspan through mitohormesis.

INSTRUMENT(S): Liquid Chromatography MS -

SUBMITTER: Pablo Fernandez-Marcos 

PROVIDER: MTBLS7533 | MetaboLights | 2023-05-26

REPOSITORIES: MetaboLights

Dataset's files

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Action DRS
MTBLS7533 Other
FILES Other
a_MTBLS7533_Harmol_LC-MS.txt Txt
a_MTBLS7533_Spermidine_LC-MS.txt Txt
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Publications

Peripheral modulation of antidepressant targets MAO-B and GABAAR by harmol induces mitohormesis and delays aging in preclinical models.

Costa-Machado Luis Filipe LF   Garcia-Dominguez Esther E   McIntyre Rebecca L RL   Lopez-Aceituno Jose Luis JL   Ballesteros-Gonzalez Álvaro Á   Tapia-Gonzalez Andrea A   Fabregat-Safont David D   Eisenberg Tobias T   Gomez Jesús J   Plaza Adrian A   Sierra-Ramirez Aranzazu A   Perez Manuel M   Villanueva-Bermejo David D   Fornari Tiziana T   Loza María Isabel MI   Herradon Gonzalo G   Hofer Sebastian J SJ   Magnes Christoph C   Madeo Frank F   Duerr Janet S JS   Pozo Oscar J OJ   Galindo Maximo-Ibo MI   Del Pino Isabel I   Houtkooper Riekelt H RH   Megias Diego D   Viña Jose J   Gomez-Cabrera Mari Carmen MC   Fernandez-Marcos Pablo J PJ  

Nature communications 20230515 1


Reversible and sub-lethal stresses to the mitochondria elicit a program of compensatory responses that ultimately improve mitochondrial function, a conserved anti-aging mechanism termed mitohormesis. Here, we show that harmol, a member of the beta-carbolines family with anti-depressant properties, improves mitochondrial function and metabolic parameters, and extends healthspan. Treatment with harmol induces a transient mitochondrial depolarization, a strong mitophagy response, and the AMPK compe  ...[more]

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