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Ketone bodies: A double‐edged sword for mammalian life span

Issei Tomita, Hiroaki Tsuruta, Mako Yasuda‒Yamahara, Kosuke Yamahara, Shogo Kuwagata, Yuki Tanaka‒Sasaki, Masami Chin‒Kanasaki, Yukihiro Fujita, Eiichiro Nishi, Hideki Katagiri, Hiroshi Maegawa, Shinji Kume

2023Aging Cell37 citationsDOIOpen Access PDF

Abstract

Accumulating evidence suggests health benefits of ketone bodies, and especially for longevity. However, the precise role of endogenous ketogenesis in mammalian life span, and the safety and efficacy of the long-term exogenous supplementation of ketone bodies remain unclear. In the present study, we show that a deficiency in endogenous ketogenesis, induced by whole-body Hmgcs2 deletion, shortens life span in mice, and that this is prevented by daily ketone body supplementation using a diet containing 1,3-butanediol, a precursor of β-hydroxybutyrate. Furthermore, feeding the 1,3-butanediol-containing diet from early in life increases midlife mortality in normal mice, but in aged mice it extends life span and prevents the high mortality associated with atherosclerosis in ApoE-deficient mice. By contrast, an ad libitum low-carbohydrate ketogenic diet markedly increases mortality. In conclusion, endogenous ketogenesis affects mammalian survival, and ketone body supplementation may represent a double-edged sword with respect to survival, depending on the method of administration and health status.

Topics & Concepts

KetogenesisKetone bodiesLongevityBiologyEndogenyLife spanEndocrinologyKetogenic dietInternal medicineKetonePhysiologyMetabolismMedicineGeneticsChemistryNeuroscienceEpilepsyOrganic chemistryEvolutionary biologyDiet and metabolism studiesDiet, Metabolism, and DiseaseAdipose Tissue and Metabolism
Ketone bodies: A double‐edged sword for mammalian life span | Litcius