Oral nitrite restores age-dependent phenotypes in eNOS-null mice
Margarita Tenopoulou, … , Paul L. Huang, Harry Ischiropoulos
Margarita Tenopoulou, … , Paul L. Huang, Harry Ischiropoulos
Published August 23, 2018
Citation Information: JCI Insight. 2018;3(16):e122156. https://doi.org/10.1172/jci.insight.122156.
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Research Article Metabolism Therapeutics

Oral nitrite restores age-dependent phenotypes in eNOS-null mice

Abstract

Alterations in the synthesis and bioavailability of NO are central to the pathogenesis of cardiovascular and metabolic disorders. Although endothelial NO synthase–derived (eNOS-derived) NO affects mitochondrial long-chain fatty acid β-oxidation, the pathophysiological significance of this regulation remains unclear. Accordingly, we determined the contributions of eNOS/NO signaling in the adaptive metabolic responses to fasting and in age-induced metabolic dysfunction. Four-month-old eNOS–/– mice are glucose intolerant and exhibit serum dyslipidemia and decreased capacity to oxidize fatty acids. However, during fasting, eNOS–/– mice redirect acetyl-CoA to ketogenesis to elevate circulating levels of β-hydroxybutyrate similar to wild-type mice. Treatment of 4-month-old eNOS–/– mice with nitrite for 10 days corrected the hypertension and serum hyperlipidemia and normalized the rate of fatty acid oxidation. Fourteen-month-old eNOS–/– mice exhibited metabolic derangements, resulting in reduced utilization of fat to generate energy, lower resting metabolic activity, and diminished physical activity. Seven-month administration of nitrite to eNOS–/– mice reversed the age-dependent metabolic derangements and restored physical activity. While the eNOS/NO signaling is not essential for the metabolic adaptation to fasting, it is critical for regulating systemic metabolic homeostasis in aging. The development of age-dependent metabolic disorder is prevented by low-dose replenishment of bioactive NO.

Authors

Margarita Tenopoulou, Paschalis-Thomas Doulias, Kent Nakamoto, Kiara Berrios, Gabriella Zura, Chenxi Li, Michael Faust, Veronika Yakovishina, Perry Evans, Lu Tan, Michael J. Bennett, Nathaniel W. Snyder, William J. Quinn III, Joseph A. Baur, Dmitriy N. Atochin, Paul L. Huang, Harry Ischiropoulos

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Figure 2

Biochemical and metabolic adaptive responses to fasting are intact in 4-month-old eNOS–/– mice.

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Biochemical and metabolic adaptive responses to fasting are intact in 4-...
(A) Ex vivo quantification of palmitate oxidation rate in the livers of wild-type, eNOS–/–, eNOS S1176A (eNOS SA), and eNOS S1176D (eNOS SD) mice (n = 4–8) after 20 hours of food withdrawal expressed as fold change from the rate quantified at fed state. (B) Respiratory exchange ratio (RER). Circles, wild-type mice; squares, eNOS–/– mice (n = 8). (C) Depletion and restoration of liver glycogen levels in response to fasting. (D) Circulating levels of β-HB. The white boxes correspond to wild-type mice and the gray boxes correspond to eNOS–/– mice (n = 8). (E) Hepatic levels of succinyl-CoA and (F) the ratios of succinyl-CoA to acetyl-CoA and propionyl-CoA to acetyl-CoA. Scatter dot plots indicate mean ± SD. Box-and-whisker plots show median, 25th and 75th percentiles, and minimum and maximum values. Data were analyzed by 2-way ANOVA (A–D), and by 1-way ANOVA (E and F) *P < 0.05, ***P < 0.001.