Abstract
Department of Human Biology, Nutrition Research Center, Maastricht University, Maastricht, the Netherlands. e.blaak@hb.unimaas.nl
The current study investigated the fate of a [U-(13)C]palmitate tracer extracted by forearm muscle in type 2 diabetic and control subjects. We studied seven healthy lean male subjects and seven obese male subjects with type 2 diabetes using the forearm muscle balance technique with continuous intravenous infusion of the stable isotope tracer [U-(13)C]palmitate under baseline conditions and during intravenous infusion of the nonselective beta-agonist isoprenaline (ISO; 20 ng *kg(-1) lean body mass* min(-1)). In skeletal muscle of control subjects, there was a significant release of (13)C-labeled oxidation products in the form of (13)CO(2) (15% of (13)C uptake from labeled palmitate) and a significant release of (13)C-labeled glutamine (release of (13)C-labeled atoms from glutamine was 6% of (13)C uptake from labeled palmitate), whereas in type 2 diabetic subjects there was no detectable release of (13)CO(2) and (13)C-glutamine, despite a significant uptake of [U-(13)C]palmitate (60% of control value). There was net uptake of arterial (13)C-labeled glutamate by forearm muscle in both groups. Also, the ISO-induced increase in arterial glutamine enrichment and arterial concentration of (13)C-glutamine was more pronounced in the diabetic group relative to control subjects. In view of the diminished ISO-induced release of (13)C-glutamine from type 2 diabetic muscle, the latter data indicate that more [U-(13)C]palmitate entered the liver in the diabetic group and was incorporated into newly synthesized glutamine and glutamate molecules. Thus, the lack of release of (13)C-labeled oxidation products by type 2 diabetic muscle during beta-adrenergic stimulation, despite significant [U-(13)C]palmitate uptake, indicates differences in the handling of fatty acids between type 2 diabetic subjects and healthy control subjects.
The current study investigated the fate of a [U-(13)C]palmitate tracer extracted by forearm muscle in type 2 diabetic and control subjects. We studied seven healthy lean male subjects and seven obese male subjects with type 2 diabetes using the forearm muscle balance technique with continuous intravenous infusion of the stable isotope tracer [U-(13)C]palmitate under baseline conditions and during intravenous infusion of the nonselective beta-agonist isoprenaline (ISO; 20 ng *kg(-1) lean body mass* min(-1)). In skeletal muscle of control subjects, there was a significant release of (13)C-labeled oxidation products in the form of (13)CO(2) (15% of (13)C uptake from labeled palmitate) and a significant release of (13)C-labeled glutamine (release of (13)C-labeled atoms from glutamine was 6% of (13)C uptake from labeled palmitate), whereas in type 2 diabetic subjects there was no detectable release of (13)CO(2) and (13)C-glutamine, despite a significant uptake of [U-(13)C]palmitate (60% of control value). There was net uptake of arterial (13)C-labeled glutamate by forearm muscle in both groups. Also, the ISO-induced increase in arterial glutamine enrichment and arterial concentration of (13)C-glutamine was more pronounced in the diabetic group relative to control subjects. In view of the diminished ISO-induced release of (13)C-glutamine from type 2 diabetic muscle, the latter data indicate that more [U-(13)C]palmitate entered the liver in the diabetic group and was incorporated into newly synthesized glutamine and glutamate molecules. Thus, the lack of release of (13)C-labeled oxidation products by type 2 diabetic muscle during beta-adrenergic stimulation, despite significant [U-(13)C]palmitate uptake, indicates differences in the handling of fatty acids between type 2 diabetic subjects and healthy control subjects.
Original language | English |
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Pages (from-to) | 784-789 |
Number of pages | 6 |
Journal | Diabetes |
Volume | 51 |
Issue number | 3 |
DOIs | |
Publication status | Published - 1 Jan 2002 |