Litcius/Paper detail

Refeeding-associated AMPKγ1 complex activity is a hallmark of health and longevity

Roberto Ripa, Eugen Ballhysa, Joachim D. Steiner, Raymond Laboy, Andrea Annibal, Nadine Hochhard, Christian Latza, Luca Dolfi, Chiara Calabrese, Anna Maria Meyer, Maria Cristina Polidori, Roman‐Ulrich Müller, Adam Antebi

2023Nature Aging39 citationsDOIOpen Access PDF

Abstract

Abstract Late-life-initiated dietary interventions show limited efficacy in extending longevity or mitigating frailty, yet the underlying causes remain unclear. Here we studied the age-related fasting response of the short-lived killifish Nothobranchius furzeri . Transcriptomic analysis uncovered the existence of a fasting-like transcriptional program in the adipose tissue of old fish that overrides the feeding response, setting the tissue in persistent metabolic quiescence. The fasting–refeeding cycle triggers an inverse oscillatory expression of genes encoding the AMP-activated protein kinase (AMPK) regulatory subunits Prkag1 (γ1) and Prkag2 (γ2) in young individuals. Aging blunts such regulation, resulting in reduced Prkag1 expression. Transgenic fish with sustained AMPK γ1 countered the fasting-like transcriptional program, exhibiting a more youthful feeding and fasting response in older age, improved metabolic health and longevity. Accordingly, Prkag1 expression declines with age in human tissues and is associated with multimorbidity and multidimensional frailty risk. Thus, selective activation of AMPK γ1 prevents metabolic quiescence and preserves healthy aging in vertebrates, offering potential avenues for intervention.

Topics & Concepts

LongevityAMPKTranscriptomeBiologyProtein kinase ASenescenceEndocrinologyAdipose tissueInternal medicinemicroRNAGenetically modified mouseSirtuin 1Cell biologyTransgeneKinasePhysiologyMedicineGeneGene expressionGeneticsDownregulation and upregulationGenetics, Aging, and Longevity in Model OrganismsFOXO transcription factor regulationAdipose Tissue and Metabolism