Overexpression of CYB5R3 and NQO1, two NAD+-producing enzymes, mimics aspects of caloric restriction

Alberto Diaz-Ruiz, Michael Lanasa, Joseph Garcia, Hector Mora, Frances Fan, Alejandro Martin-Montalvo, Andrea Di Francesco, Miguel Calvo-Rubio, Andrea Salvador-Pascual, Miguel A. Aon, Kenneth W. Fishbein, Kevin J. Pearson, Jose Manuel Villalba, Placido Navas, Michel Bernier, Rafael de Cabo

Research output: Contribution to journalArticlepeer-review

29 Scopus citations

Abstract

Calorie restriction (CR) is one of the most robust means to improve health and survival in model organisms. CR imposes a metabolic program that leads to increased stress resistance and delayed onset of chronic diseases, including cancer. In rodents, CR induces the upregulation of two NADH-dehydrogenases, namely NAD(P)H:quinone oxidoreductase 1 (Nqo1) and cytochrome b5 reductase 3 (Cyb5r3), which provide electrons for energy metabolism. It has been proposed that this upregulation may be responsible for some of the beneficial effects of CR, and defects in their activity are linked to aging and several age-associated diseases. However, it is unclear whether changes in metabolic homeostasis solely through upregulation of these NADH-dehydrogenases have a positive impact on health and survival. We generated a mouse that overexpresses both metabolic enzymes leading to phenotypes that resemble aspects of CR including a modest increase in lifespan, greater physical performance, a decrease in chronic inflammation, and, importantly, protection against carcinogenesis, one of the main hallmarks of CR. Furthermore, these animals showed an enhancement of metabolic flexibility and a significant upregulation of the NAD+/sirtuin pathway. The results highlight the importance of these NAD+ producers for the promotion of health and extended lifespan.

Original languageEnglish
Article numbere12767
JournalAging Cell
Volume17
Issue number4
DOIs
StatePublished - Aug 2018

Bibliographical note

Publisher Copyright:
© 2018 The Authors. Aging Cell published by the Anatomical Society and John Wiley & Sons Ltd.

Keywords

  • CYB5R3
  • NQO1
  • aging
  • calorie restriction
  • metabolic homeostasis

ASJC Scopus subject areas

  • Aging
  • Cell Biology

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