Palmitate increases L-type Ca2+ currents and the size of the readily releasable granule pool in mouse pancreatic β-cells

We have investigated the in vitro effects of the saturated free fatty acid palmitate on mouse pancreatic β-cells by a combination of electrophysiological recordings, intracellular Ca²⁺ (Ca²⁺]_i) microfluorimetry and insulin release measurements. Addition of palmitate (1 m m , bound to fatty acid-free albumin) to intact islets exposed to 15 m m glucose increased the Ca²⁺]_i by ∼30% and insulin secretion 2-fold. Palmitate remained capable of increasing Ca²⁺]_i and insulin release in the presence of tolbutamide and in islets depolarized by high K⁺ in combination with diazoxide, indicating that the stimulation occurs independently of closure of ATP-regulated K⁺ channels (K_ATP channels). Palmitate (0.5 m m ) augmented exocytosis (measured as an increase in cell capacitance) in single β-cells and increased the size of the readily releasable pool (RRP) of granules 2-fold. Whole-cell peak Ca²⁺ currents rose by ∼25% following addition of 0.5 m m palmitate, an effect that was abolished in the presence of 10 μ m isradipine indicating that the free fatty acid specifically acts on L-type Ca²⁺ channels. The actions of palmitate on exocytosis and Ca²⁺ currents were not mimicked by intracellular application of palmitoyl-CoA. We conclude that palmitate increases insulin secretion by a K_ATP channel-independent mechanism exerted at the level of exocytosis and that involves both augmentation of L-type Ca²⁺ currents and an increased size of the RRP.