Untargeted mass spectrometric approach in metabolic healthy offspring of patients with type 2 diabetes reveals medium-chain acylcarnitine as potential biomarker for lipid induced glucose intolerance (LGIT)

Offspring of type 2 diabetes (T2D) patients have increased risk to develop diabetes, due to inherited genetic susceptibility that directly interferes with the individual adaption to environmental conditions. We characterise T2D offspring (OSP) to identify metabolic risk markers for early disease pre...

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Hauptverfasser:	Knebel, Birgit, Mack, Susanne, Lehr, Stefan, Barsch, Aiko, Schiller, Martina, Haas, Jutta, Lange, Simone, Fuchser, Jens, Zurek, Gabriela, Müller-Wieland, Dirk, Kotzka, Jorg
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Schlagworte:	Biochemistry Biological Sciences not elsewhere classified Cell Biology Chemical Sciences not elsewhere classified Ecology FOS: Biological sciences FOS: Chemical sciences Genetics Marine Biology Physiology
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creator	Knebel, Birgit Mack, Susanne Lehr, Stefan Barsch, Aiko Schiller, Martina Haas, Jutta Lange, Simone Fuchser, Jens Zurek, Gabriela Müller-Wieland, Dirk Kotzka, Jorg
description	Offspring of type 2 diabetes (T2D) patients have increased risk to develop diabetes, due to inherited genetic susceptibility that directly interferes with the individual adaption to environmental conditions. We characterise T2D offspring (OSP) to identify metabolic risk markers for early disease prediction. Plasma of metabolically healthy OSP individuals (n = 43) was investigated after an oral lipid tolerance test (oLTT) by an untargeted mass spectrometric approach for holistic metabolome analyses. Two subgroups of OSP probands can be separated by oLTT, although not differing in general clinical parameters. Analyses of the plasma metabolome revealed mainly medium-chain acylcarnitines and very long-chain fatty acids with differential abundance in the subgroups. The study presented indicates that metabolically healthy OSP of T2D patients differ upon metabolic challenging in serum metabolite composition, especially medium-chain acylcarnitines. The difference suggest that postprandial lipid induced glucose intolerance (LGIT) may serve as a further valuable marker for early diabetes prediction.
doi_str_mv	10.6084/m9.figshare.3470147
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subjects	Biochemistry Biological Sciences not elsewhere classified Cell Biology Chemical Sciences not elsewhere classified Ecology FOS: Biological sciences FOS: Chemical sciences Genetics Marine Biology Physiology
title	Untargeted mass spectrometric approach in metabolic healthy offspring of patients with type 2 diabetes reveals medium-chain acylcarnitine as potential biomarker for lipid induced glucose intolerance (LGIT)
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