Molecular Metabolism (Dec 2022)

Nicotinamide riboside kinase 1 protects against diet and age-induced pancreatic β-cell failure

  • Angelique Cercillieux,
  • Joanna Ratajczak,
  • Magali Joffraud,
  • José Luis Sanchez-Garcia,
  • Guillaume Jacot,
  • Alix Zollinger,
  • Sylviane Métairon,
  • Judith Giroud-Gerbetant,
  • Marie Rumpler,
  • Eleonora Ciarlo,
  • Miriam Valera-Alberni,
  • Audrey Sambeat,
  • Carles Canto

Journal volume & issue
Vol. 66
p. 101605

Abstract

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Objective: Disturbances in NAD+ metabolism have been described as a hallmark for multiple metabolic and age-related diseases, including type 2 diabetes. While alterations in pancreatic β-cell function are critical determinants of whole-body glucose homeostasis, the role of NAD+ metabolism in the endocrine pancreas remains poorly explored. Here, we aimed to evaluate the role of nicotinamide riboside (NR) metabolism in maintaining NAD+ levels and pancreatic β-cell function in pathophysiological conditions. Methods: Whole body and pancreatic β-cell-specific NRK1 knockout (KO) mice were metabolically phenotyped in situations of high-fat feeding and aging. We also analyzed pancreatic β-cell function, β-cell mass and gene expression. Results: We first demonstrate that NRK1, the essential enzyme for the utilization of NR, is abundantly expressed in pancreatic β-cells. While NR treatment did not alter glucose-stimulated insulin secretion in pancreatic islets from young healthy mice, NRK1 knockout mice displayed glucose intolerance and compromised β-cells response to a glucose challenge upon high-fat feeding or aging. Interestingly, β cell dysfunction stemmed from the functional failure of other organs, such as liver and kidney, and the associated changes in circulating peptides and hormones, as mice lacking NRK1 exclusively in β-cells did not show altered glucose homeostasis. Conclusions: This work unveils a new physiological role for NR metabolism in the maintenance of glucose tolerance and pancreatic β-cell function in high-fat feeding or aging conditions.

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