The application of metabolomics by high field nuclear magnetic resonance to study thyroid signalisation pathologies in mice

Metabolomics by nuclear magnetic resonance (NMR) allows studying the metabolicresponse of a global biological system to a stimuli or a physiopathological even (diseases,genetic modifications, etc.). This discipline is growing especially in the clinical and biologicalfields, and represents a strong potential tool to identify biomarkers related to diseases, andstudy the function of genes.This thesis is dedicated to the application of metabolomics by high field NMR to studythyroid signalisation pathologies in mice. The main goal is to identify biomarkers related tothe emerging genetic disease called resistance to thyroid hormone due to a mutation in thyroidhormone receptor TRα1 (RTHα). This disease is particularly difficult to diagnose because ofthe lack of biochemical markers and specific symptoms. In addition, it presents commonfeatures with hypothyroidism in term of symptoms. Mice models of RTHα andhypothyroidism were analysed, and the investigation were driven on urine and blood plasmain order to differentiate metabolically theses diseases and identify biomarkers related toRTHα. Metabolic fingerprints related to each disease were identified in both urine and bloodplasma. Five metabolites vary significantly in the urine of RTHα mice: trimethylamine,dimethylamine, isovalerylglycine, N-acetylglucosamine and choline. Unsaturated lipids varysignificantly in the blood plasma of RTHα mice.The impact of thyroid hormones (TH) and the thyroid hormone receptor TRβ on theliver metabolism were also studied in the present manuscript through NMR-basedmetabolomics. A mouse model, with a specific knock-out of TRβ gene in hepatocytes (LTRβ-KO), were used to study this question. To understand the function of TH mediated by TRβ,the liver metabolic response to TH, obtained from liver aqueous extracts and intact livertissues, TRβKO and wild-type mice were compared. The results suggest the presence ofdirect and indirect effects of thyroid hormones on the liver metabolism.