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Fasting alleviates metabolic alterations in mice with propionyl-CoA carboxylase deficiency due to Pcca mutation

Wentao He, Hannah Marchuk, Dwight D. Koeberl, Takhar Kasumov, Xiaoxin Chen, Guofang Zhang

2024Communications Biology15 citationsDOIOpen Access PDF

Abstract

Abstract Propionic acidemia (PA), resulting from Pcca or Pccb gene mutations, impairs propionyl-CoA metabolism and induces metabolic alterations. While speculation exists that fasting might exacerbate metabolic crises in PA patients by accelerating the breakdown of odd-chain fatty acids and amino acids into propionyl-CoA, direct evidence is lacking. Our investigation into the metabolic effects of fasting in Pcca -/- (A138T) mice, a PA model, reveals surprising outcomes. Propionylcarnitine, a PA biomarker, decreases during fasting, along with the C3/C2 (propionylcarnitine/acetylcarnitine) ratio, ammonia, and methylcitrate. Although moderate amino acid catabolism to propionyl-CoA occurs with a 23-h fasting, a significant reduction in microbiome-produced propionate and increased fatty acid oxidation mitigate metabolic alterations by decreasing propionyl-CoA synthesis and enhancing acetyl-CoA synthesis. Fasting-induced gluconeogenesis further facilitates propionyl-CoA catabolism without changing propionyl-CoA carboxylase activity. These findings suggest that fasting may alleviate metabolic alterations in Pcca -/- (A138T) mice, prompting the need for clinical evaluation of its potential impact on PA patients.

Topics & Concepts

CatabolismEndocrinologyInternal medicinePropionic acidemiaPyruvate carboxylaseMetabolismGluconeogenesisKetogenesisChemistryPropionateBiochemistryBiologyKetone bodiesMedicineEnzymeMetabolism and Genetic DisordersMitochondrial Function and PathologyDiet and metabolism studies
Fasting alleviates metabolic alterations in mice with propionyl-CoA carboxylase deficiency due to Pcca mutation | Litcius