<p>Nicotinamide riboside (NR), a natural precursor of NAD⁺, has been suggested to confer protection against metabolic and age-related disorders. However, its effect on chronic kidney disease (CKD), particularly in the context of obesity, remains poorly understood. Here, we evaluated the potential effects of NR supplementation in models of obesity-induced renal injury. The metabolic and renal effects of both preventive and interventional NR supplementation were assessed in mice fed high-fat or low-fat diets. Our data showed that NAD⁺ repletion by NR supplementation, whether preventive or interventional, did not affect body or organ weights, and did not ameliorate glucose metabolism, insulin resistance, or hepatic and renal lipid accumulation. NR supplementation was however associated with SIRT3-mediated deacetylation of SOD2 in the renal tissue of obese mice. It moderately reduced renal dysfunction and was associated with increased mitochondrial content. To further explore the cellular mechanisms underlying the renal effects of NR in a lipotoxic context, we investigated its impact on renal proximal tubular cells exposed to palmitic acid (PA). NR significantly prevented oxidative stress in proximal tubular epithelial cells, as evidenced by the activation of SOD2 as well as the reduction of lipid peroxidation. Moreover, NR improved mitochondrial damage and promoted mitophagy. However, NR did not reduce PA-induced lipid accumulation. In conclusion, this study provides evidence that NR exerts antioxidant effects and enhances mitochondrial function in renal cells in vitro but does not protect obese mice from metabolic disorders and associated CKD.</p>

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Effects of NAD⁺ repletion with Nicotinamide riboside on obesity-induced chronic kidney disease and renal cell lipotoxicity

  • Morgane Decarnoncle,
  • Louise Pierre,
  • Marine Thirion,
  • Hélène Marlier,
  • Louis Maréchal,
  • Pauline Rouzé,
  • Inès Jadot,
  • Thierry Arnould,
  • Anne-Emilie Declèves,
  • Florian Juszczak

摘要

Nicotinamide riboside (NR), a natural precursor of NAD⁺, has been suggested to confer protection against metabolic and age-related disorders. However, its effect on chronic kidney disease (CKD), particularly in the context of obesity, remains poorly understood. Here, we evaluated the potential effects of NR supplementation in models of obesity-induced renal injury. The metabolic and renal effects of both preventive and interventional NR supplementation were assessed in mice fed high-fat or low-fat diets. Our data showed that NAD⁺ repletion by NR supplementation, whether preventive or interventional, did not affect body or organ weights, and did not ameliorate glucose metabolism, insulin resistance, or hepatic and renal lipid accumulation. NR supplementation was however associated with SIRT3-mediated deacetylation of SOD2 in the renal tissue of obese mice. It moderately reduced renal dysfunction and was associated with increased mitochondrial content. To further explore the cellular mechanisms underlying the renal effects of NR in a lipotoxic context, we investigated its impact on renal proximal tubular cells exposed to palmitic acid (PA). NR significantly prevented oxidative stress in proximal tubular epithelial cells, as evidenced by the activation of SOD2 as well as the reduction of lipid peroxidation. Moreover, NR improved mitochondrial damage and promoted mitophagy. However, NR did not reduce PA-induced lipid accumulation. In conclusion, this study provides evidence that NR exerts antioxidant effects and enhances mitochondrial function in renal cells in vitro but does not protect obese mice from metabolic disorders and associated CKD.