4.7 Article

Inhibition of rat locus coeruleus neurons by prostaglandin E2 EP3 receptors: pharmacological characterization ex vivo

Journal

FRONTIERS IN PHARMACOLOGY
Volume 14, Issue -, Pages -

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/fphar.2023.1290605

Keywords

locus coeruleus; prostanoid EP3 receptor; prostaglandin E-2; noradrenaline/norepinephrine; slice; electrophysiology; rat; firing

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EP3 receptors modulate the activity of locus coeruleus neurons through a G(i/o) protein and GIRK-mediated mechanism.
Prostaglandin E-2 (PGE(2)) is an inflammatory mediator synthesized by the brain constitutive cyclooxygenase enzyme. PGE(2) binds to G protein-coupled EP1-4 receptors (EP1 to G(q), EP2,4 to G(s), and EP3 to G(i/o)). EP2, EP3 and EP4 receptors are expressed in the locus coeruleus (LC), the main noradrenergic nucleus in the brain. EP3 receptors have been explored in the central nervous system, although its role regulating the locus coeruleus neuron activity has not been pharmacologically defined. Our aim was to characterize the function of EP3 receptors in neurons of the LC. Thus, we studied the effect of EP3 receptor agonists on the firing activity of LC cells in rat brain slices by single-unit extracellular electrophysiological techniques. The EP3 receptor agonist sulprostone (0.15 nM-1.28 mu M), PGE(2) (0.31 nM-10.2 mu M) and the PGE(1) analogue misoprostol (0.31 nM-2.56 mu M) inhibited the firing rate of LC neurons in a concentration-dependent manner (EC50 = 15 nM, 110 nM, and 51 nM, respectively). The EP3 receptor antagonist L-798,106 (3-10 mu M), but not the EP2 (PF-04418948, 3-10 mu M) or EP4 (L-161,982, 3-10 mu M) receptor antagonists, caused rightward shifts in the concentration-effect curves for the EP3 receptor agonists. Sulprostone-induced effect was attenuated by the G(i/o) protein blocker pertussis toxin (pertussis toxin, 500 ng ml(-1)) and the inhibitors of inwardly rectifying potassium channels (GIRK) BaCl2 (300 mu M) and SCH-23390 (15 mu M). In conclusion, LC neuron firing activity is regulated by EP3 receptors, presumably by an inhibitory G(i/o) protein- and GIRK-mediated mechanism.

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