Abstract
Cells in our organism live in a liquid environment whose composition and osmolality are maintained within tight limits. Magnocellular neurons (MNCs) of the supra optic nucleus can sense osmolality and control the synthesis and secretion of vasopressin (VP) and oxytocin (OT) by the neurohypophysis. OT and VP act on the kidneys controlling the excretion of water and sodium to maintain homeostasis. Here we combined electrophysiology, molecular biology, and radioimmunoassay to show that the electrical activity of MNCs can be controlled by nitric oxide (NO), a gaseous messenger. NO reacts with cysteine residues (S-nitrosylation) on hyperpolarization-activated and nucleotide-gated cation channels decreasing the firing rate of MNCs and the consequent secretion of VP and OT.
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