Neuroendocrine signalling: Natural variations on a Ca2+ theme

Article ID	Journal	Published Year	Pages	File Type
8463462	Cell Calcium	2012	5 Pages	PDF

Abstract

This special issue on Ca2+ signalling in neuroendocrine cells is an opportunity to assess, through a range of ï¬rst-class review articles, the complex world of endocrine signalling, a complexity that is probably best captured by calling it “diversity in unity”. The unity comes from the fact that all the endocrine cells are excitable cells, able to generate action potentials and are using Ca2+ as an essential informational molecule, coupling cell stimulation with the activation of secretion, through the exocytotic process. The 'diversity' element, illustrated by almost all the reviews, stems from the modalities employed to achieve the increase in cytosolic Ca2+ signal, the balance between the participation of Ca2+ entry through the plasma membrane voltage-operated Ca2+ channels and the release of Ca2+ from intracellular Ca2+ stores, and the cross-talk between the Ca2+ and cyclic AMP signalling pathways.

Keywords

GPCR NCX CAPS CCCP Thapsigargin Neurohypophysis TRPC PIP2 AVP VDCC RyR Gonadotropes PLC sarcoendoplasmic reticulum Ca2+-ATPase InsP3 PMCA VOCCs Ca2+ clearance Inositol trisphosphate Stimulus–secretion coupling Corticotropes ACTH GnRH voltage-operated Ca2+ channels CPA DNES APUD cAMP G-protein-coupled receptor Na+/Ca2+ exchanger [Ca2+]i ATP Cyclopiazonic acid Opioids oxytocin Exocytosis amine precursor uptake and decarboxylation Pancreatic islets Chromaffin cells Endocrine cells diffuse neuroendocrine system endoplasmic reticulum Neuroendocrinology plasma membrane Ca2+ ATPase SON Ca2+ stores phospholipase C Electrical activity SERCA Lactotropes Supraoptic nucleus adrenocorticotropic hormone Gonadotropin-releasing hormone Growth hormone Ca2+ homeostasis Hypothalamus Anterior pituitary vasopressin arginine vasopressin Second messengers Voltage-dependent Ca2+ channels Carbonyl cyanide 3-chlorophenylhydrazone Ryanodine receptors