The investigators propose that the sensitivity to glucagon in hepatic lipid metabolism is impaired in subjects with non-alcoholic fatty liver disease (NAFLD) and steatohepatitis (NASH). Moreover, they propose a dys-coordinated, reduced glucagon sensitivity in hepatic lipid metabolism and endogen glucose production in patients with NAFLD and NASH compared with healthy subjects and patients with simple steatosis. This reduced sensitivity may be the basis of a more severe dyslipidemia and the production of increased concentrations of toxic lipid intermediates in plasma and muscle tissue. The study will include healthy subjects with obesity and subjects with simple steatosis and NASH, tested at basal glucagonemia and moderate hyperglucagonemia to mimic insulin resistant levels during simultaneous somatostatin infusion and replacement doses of insulin and growth hormone. Infusion of palmitate, VLDL-triglyceride and glucose tracers in combination with indirect calorimetry as well as skeletal and adipose tissue biopsies will be employed to assess free fatty acid and VLDL-triglyceride kinetics (turnover, and oxidation) and hepatic fatty acid-esterification.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
NONE
Enrollment
28
Infusion of low dose glucagon and high dose glucagon during simultaneous somatostatin infusion and replacement doses of insulin and growth hormone. Infusion of palmitate, VLDL-triglyceride and glucose tracers.
Aarhus University Hospital
Aarhus, Danmark, Denmark
VLDL-triglyceride kinetics (appearance rate (µmol/min) and oxidation (µmol/min))
Ex vivo labeled VLDL \[14C\]-triolein tracer technique. Oxidation is measured by specific activity in exhaled air.
Time frame: 30 minutes at steady-state
Endogen glucose production (mmol/kg/min)
3-3H glucose tracer technique
Time frame: 30 minutes at steady-state
LPL-activity (lipoprotein lipase, µmol/h)
Measured by the 'glycerol-stabilized substrate' method
Time frame: 30 minutes at steady-state
VLDL-triglyceride-fatty acid uptake in muscle and fatty tissue (%)
Measurement of fatty acid concentration and specific activity in muscle- and adipose tissue biopsies
Time frame: 30 minutes at steady-state
Expression of relevant genes in tissues
PCR in muscle- and adipose tissue biopsies
Time frame: 30 minutes at steady-state
Fatty acid turnover (µmol/min)
Infusion af \[9,10-3H\] palmitate and measurement of specific activity in muscle and adipose tissue
Time frame: 30 minutesat steady-state
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