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Dietary protein load affects the energy and nitrogen balance requiring liver glutamate dehydrogenase to maintain physical activity

Published inThe Journal of biological chemistry, vol. 300, no. 7, 107473
Publication date2024-07
Abstract

Provision of amino acids to the liver is instrumental for gluconeogenesis while it requires safe disposal of the amino group. The mitochondrial enzyme glutamate dehydrogenase (GDH) is central for hepatic ammonia detoxification by deaminating excessive amino acids towards ureagenesis and preventing hyperammonemia. The present study investigated the early adaptive responses to changes in dietary protein intake in control mice and liver-specific GDH knockout mice (Hep-Glud1-/-). Mice were fed chow diets with a wide coverage of protein contents; i.e. suboptimal 10%, standard 20%, over optimal 30%, and high 45% protein diets; switched every 4 days. Metabolic adaptations of the mice were assessed in calorimetric chambers before tissue collection and analyses. Hep-Glud1-/- mice exhibited impaired alanine induced gluconeogenesis and constitutive hyperammonemia. The expression and activity of GDH in liver lysates were not significantly changed by the different diets. However, applying an in situ redox-sensitive assay on cryopreserved tissue sections revealed higher hepatic GDH activity in mice fed the high-protein diets. On the same section series, immunohistochemistry provided corresponding mapping of the GDH expression. Cosinor analysis from calorimetric chambers showed that the circadian rhythm of food intake and energy expenditure was altered in Hep-Glud1-/- mice. In control mice, energy expenditure shifted from carbohydrate to amino acid oxidation when diet was switched to high protein content. This shift was impaired in Hep-Glud1-/- mice and consequently the spontaneous physical activity was markedly reduced in GDH knockout mice. These data highlight the central role of liver GDH in the energy balance adaptation to dietary proteins.

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Keywords
  • Ammonia
  • Dietary protein
  • Gluconeogenesis
  • Glutamate dehydrogenase
  • Liver
Citation (ISO format)
LUCZKOWSKA, Karolina et al. Dietary protein load affects the energy and nitrogen balance requiring liver glutamate dehydrogenase to maintain physical activity. In: The Journal of biological chemistry, 2024, vol. 300, n° 7, p. 107473. doi: 10.1016/j.jbc.2024.107473
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ISSN of the journal0021-9258
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