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Melatonin influences somatostatin secretion from human pancreatic δ‐cells via MT1 and MT2 receptors
Authors:Juliane Zibolka  Eckhard Mühlbauer  Elmar Peschke
Affiliation:1. Institute of Anatomy and Cell Biology, Martin Luther University Halle‐Wittenberg, Halle, Germany;2. Saxon Academy of Sciences Leipzig, Leipzig, Germany
Abstract:Melatonin is an effector of the diurnal clock on pancreatic islets. The membrane receptor‐transmitted inhibitory influence of melatonin on insulin secretion is well established and contrasts with the reported stimulation of glucagon release from α‐cells. Virtually, nothing is known concerning the melatonin‐mediated effects on islet δ‐cells. Analysis of a human pancreatic δ‐cell model, the cell line QGP‐1, and the use of a somatostatin‐specific radioimmunoassay showed that melatonin primarily has an inhibitory effect on somatostatin secretion in the physiological concentration range. In the pharmacological range, melatonin elicited slightly increased somatostatin release from δ‐cells. Cyclic adenosine monophosphate (cAMP) is the major second messenger dose‐dependently stimulating somatostatin secretion, in experiments employing the membrane‐permeable 8‐Br‐cAMP. 8‐Br‐cyclic guanosine monophosphate proved to be of only minor relevance to somatostatin release. As the inhibitory effect of 1 nm melatonin was reversed after incubation of QGP‐1 cells with the nonselective melatonin receptor antagonist luzindole, but not with the MT2‐selective antagonist 4‐P‐PDOT (4‐phenyl‐2‐propionamidotetraline), an involvement of the MT1 receptor can be assumed. Somatostatin release from the δ‐cells at low glucose concentrations was significantly inhibited during co‐incubation with 1 nm melatonin, an effect which was less pronounced at higher glucose levels. Transient expression experiments, overexpressing MT1, MT2, or a deletion variant as a control, indicated that the MT1 and not the MT2 receptor was the major transmitter of the inhibitory melatonin effect. These data point to a significant influence of melatonin on pancreatic δ‐cells and on somatostatin release.
Keywords:melatonin receptors MT1 and MT2  pancreatic δ  ‐cell  QGP‐1  second messenger  somatostatin
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