Abstract
BackgroundFree fatty acids (FFAs) acutely stimulate insulin secretion from pancreatic islets. Conflicting results have been presented regarding this effect at non-stimulatory glucose concentration, however. The aim of our study was to investigate how long-chain FFAs affect insulin secretion from isolated human pancreatic islets in the presence of physiologically fasting glucose concentrations and to explore the contribution of mitochondria to the effects on secretion.MethodsInsulin secretion from human pancreatic islets was measured from short-term static incubation or perfusion system at fasting glucose concentration (5.5 mM) with or without 4 different FFAs (palmitate, palmitoleate, stearate, and oleate). The contribution of mitochondrial metabolism to the effects of fatty acid-stimulated insulin secretion was explored.ResultsThe average increase in insulin secretion, measured from statically incubated and dynamically perifused human islets, was about 2-fold for saturated free fatty acids (SFAs) (palmitate and stearate) and 3-fold for mono-unsaturated free fatty acids (MUFAs) (palmitoleate and oleate) compared with 5.5 mmol/l glucose alone. Accordingly, MUFAs induced 50 % and SFAs 20 % higher levels of oxygen consumption compared with islets exposed to 5.5 mmol/l glucose alone. The effect was due to increased glycolysis. When glucose was omitted from the medium, addition of the FFAs did not affect oxygen consumption. However, the FFAs still stimulated insulin secretion from the islets although secretion was more than halved. The mitochondria-independent action was via fatty acid metabolism and FFAR1/GPR40 signaling.ConclusionsThe findings suggest that long-chain FFAs acutely induce insulin secretion from human islets at physiologically fasting glucose concentrations, with MUFAs being more potent than SFAs, and that this effect is associated with increased glycolytic flux and mitochondrial respiration.
Highlights
Free fatty acids (FFAs) acutely stimulate insulin secretion from pancreatic islets
We found that FFAs acutely increased insulin secretion at fasting glucose concentrations with Monounsaturated free fatty acid (MUFA) being more potent than Saturated free fatty acid (SFA), and that the enhanced insulin secretion was partly associated with the rise in glucose flux and mitochondrial respiration
Fatty acids acutely enhance insulin secretion, oxygen consumption rate (OCR) and extracellular acidification rate (ECAR) from human islets at fasting glucose concentrations with MUFAs being more potent than SFAs Insulin secretion rate from statically incubated human islets in the presence of 5.5 mmol/l glucose was 1.48 ±
Summary
Free fatty acids (FFAs) acutely stimulate insulin secretion from pancreatic islets. The aim of our study was to investigate how long-chain FFAs affect insulin secretion from isolated human pancreatic islets in the presence of physiologically fasting glucose concentrations and to explore the contribution of mitochondria to the effects on secretion. Short-term exposure of beta-cells to free fatty acids (FFAs) potentiates glucose-stimulated insulin secretion [1, 2]. Such potency has been reported to increase with chain length and degree of saturation of the FFAs [2, 3]. Whether FFAs affect insulin secretion at fasting glucose levels is not clear. Whereas some groups reported that there is no or little effect of FFAs on insulin secretion [3, 15, 16], others showed that FFAs stimulate insulin secretion at low glucose concentrations [17, 18]
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