한빛사 논문
Juewon Kim 1, Yunju Jo 2, Donghyun Cho 3, Dongryeol Ryu 4
1Basic Research & Innovation Division, Amorepacific R&D Center, Yongin, Korea.
2Department of Molecular Cell Biology, Sungkyunkwan University School of Medicine, Suwon, Korea.
3Basic Research & Innovation Division, Amorepacific R&D Center, Yongin, Korea.
4Department of Molecular Cell Biology, Sungkyunkwan University School of Medicine, Suwon, Korea.
Corresponding authors: Correspondence to Juewon Kim or Dongryeol Ryu.
Abstract
The pathways that impact longevity in the wake of dietary restriction (DR) remain still ill-defined. Most studies have focused on nutrient limitation and perturbations of energy metabolism. We showed that the L-threonine was elevated in Caenorhabditis elegans under DR, and that L-threonine supplementation increased its healthspan. Using metabolic and transcriptomic profiling in worms that were fed with RNAi to induce loss of key candidate mediators. L-threonine supplementation and loss-of-threonine dehydrogenaseincreased the healthspan by attenuating ferroptosis in a ferritin-dependent manner. Transcriptomic analysis showed that FTN-1 encoding ferritin was elevated, implying FTN-1 is an essential mediator of longevity promotion. Organismal ferritin levels were positively correlated with chronological aging and L-threonine supplementation protected against age-associated ferroptosis through the DAF-16 and HSF-1 pathways. Our investigation uncovered the role of a distinct and universal metabolite, L-threonine, in DR-mediated improvement in organismal healthspan, suggesting it could be an effective intervention for preventing senescence progression and age-induced ferroptosis.
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