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Serum metabolomics analysis reveals increased lipid catabolism in mildly hyperbilirubinemic Gilbert's syndrome individuals

C.A. Hana, Lan V. Tran, Christine Mölzer, Elisabeth Müllner, Marlies Hörmann-Wallner, B. Franzke, Anela Tosevska, Patrick A. Zöhrer, Daniel Doberer, Rodrig Marculescu, Andrew C. Bulmer, Heinz Freisling, Ali A. Moazzami, Karl‐Heinz Wagner

2021Metabolism12 citationsDOIOpen Access PDF

Abstract

BACKGROUND: The protective role of mildly elevated bilirubin against CVD and diabetes mellitus type 2 (DMT2) is associated with a favorable lipid phenotype. As the mechanistic understanding of this protection in humans remains elusive, we aimed to assess the metabolomics profile of mildly hyperbilirubinemic (Gilbert's syndrome; GS) individuals especially targeting lipid catabolism. METHODS AND RESULTS: Using NMR serum metabolomics of 56 GS individuals and 56 age and gender-matched healthy controls, GS individuals demonstrated significantly greater concentrations of acetylcarnitine (+20%, p < 0.001) and the ketone bodies, 3-hydroxybutyric acid (+132%, p < 0.001), acetoacetic acid (+95%, p < 0.001) and acetone (+46%, p < 0.001). Metabolites associated with an increased mitochondrial lipid metabolism such as citrate (+15%, p < 0.001), anaplerotic amino acid intermediates and creatinine were significantly greater and creatine significantly reduced in GS individuals. Stimulators of lipid catabolism including AMPK (+59%, p < 0.001), pPPARα (+24%, p < 0.001) and T3 (+9%, p = 0.009) supported the metabolomics data while concomitantly blood glucose and insulin (-33%, p = 0.002) levels were significantly reduced. We further showed that the increased lipid catabolism partially mediates the favorable lipid phenotype (lower triglycerides) of GS individuals. Increased trimethylamine (+35%, p < 0.001) indicated changes in trimethylamine metabolism, an emerging predictor of metabolic health. CONCLUSION: We showed an enhanced lipid catabolism in mildly hyperbilirubinemic individuals, novel evidence as to why these individuals are leaner and protected against chronic metabolic diseases emphasizing bilirubin to be a promising future target in obese and dyslipidemia patients.

Topics & Concepts

CatabolismMetabolomicsInternal medicineEndocrinologyDiabetes mellitusMetabolic syndromeMedicinePhenotypeLipid metabolismBioinformaticsBiologyBiochemistryGeneMetabolismNeonatal Health and BiochemistryHeme Oxygenase-1 and Carbon MonoxideMetabolomics and Mass Spectrometry Studies