Pancreastatin inhibits insulin action in rat adipocytes

Pancreastatin (PST), a regulatory peptide with a general inhibitory effect on secretion, is derived from chromogranin A, a glycoprotein present throughout the neuroendocrine system. We have previously demonstrated the counterregulatory role of PST on insulin action in rat hepatocytes. Here, we are reporting the PST effects on rat adipocytes. PST dose dependently inhibits basal and insulin-stimulated glucose transport, lactate production, and lipogenesis, impairing the main metabolic actions of insulin in adipocytes. These effects were observed in a wide range of insulin concentrations, leading to a shift to the right in the dose-response curve. Maximal effect was observed at 10 nM PST, and the IC50 value was similar to 1 nM. Moreover, PST has a lipolytic effect in rat adipocytes (ED50 0.1 nM), although it was completely inhibited by insulin. In contrast, PST dose dependently stimulated protein synthesis and enhanced insulin-stimulated protein synthesis. In summary, these data show the lipokinetic effect of PST and the inhibitory effect of PST on insulin metabolic action within a range of physiological concentrations. Therefore, these results give new pathophysiological basis for the association of PST with insulin resistance.