Citations to this article

Spinal inflammatory hyperalgesia is mediated by prostaglandin E receptors of the EP2 subtype
Heiko Reinold, … , Ulrike Müller, Hanns Ulrich Zeilhofer
Heiko Reinold, … , Ulrike Müller, Hanns Ulrich Zeilhofer
Published March 1, 2005
Citation Information: J Clin Invest. 2005;115(3):673-679. https://doi.org/10.1172/JCI23618.
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Spinal inflammatory hyperalgesia is mediated by prostaglandin E receptors of the EP2 subtype

Abstract

Blockade of prostaglandin (PG) production by COX inhibitors is the treatment of choice for inflammatory pain but is also prone to severe side effects. Identification of signaling elements downstream of COX inhibition, particularly of PG receptor subtypes responsible for pain sensitization (hyperalgesia), provides a strategy for better-tolerated analgesics. Here, we have identified PGE2 receptors of the EP2 receptor subtype as key signaling elements in spinal inflammatory hyperalgesia. Mice deficient in EP2 receptors (EP2–/– mice) completely lack spinal PGE2-evoked hyperalgesia. After a peripheral inflammatory stimulus, EP2–/– mice exhibit only short-lasting peripheral hyperalgesia but lack a second sustained hyperalgesic phase of spinal origin. Electrophysiological recordings identify diminished synaptic inhibition of excitatory dorsal horn neurons as the dominant source of EP2 receptor–dependent hyperalgesia. Our results thus demonstrate that inflammatory hyperalgesia can be treated by targeting of a single PG receptor subtype and provide a rational basis for new analgesic strategies going beyond COX inhibition.

Authors

Heiko Reinold, Seifollah Ahmadi, Ulrike B. Depner, Beate Layh, Cornelia Heindl, May Hamza, Andreas Pahl, Kay Brune, Shuh Narumiya, Ulrike Müller, Hanns Ulrich Zeilhofer

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Citations to this article in year 2009 (7)

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Neural COX-2 mediates mechanical inflammatory pain hypersensitivity
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Prostanoids and inflammation: a new concept arising from receptor knockout mice
S Narumiya 		Journal of Molecular Medicine 2009
High Throughput Techniques for Discovering New Glycine Receptor Modulators and their Binding Sites
DF Gilbert, R Islam, T Lynagh, JW Lynch, TI Webb 		Frontiers in molecular neuroscience 2009
A Selective Role for alpha3 Subunit Glycine Receptors in Inflammatory Pain
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IW Rodger 		Inflammopharmacology 2009
Impaired cognition, sensorimotor gating, and hippocampal long-term depression in mice lacking the prostaglandin E2 EP2 receptor
A Savonenko, P Munoz, T Melnikova, Q Wang, X Liang, RM Breyer, TJ Montine, A Kirkwood, K Andreasson 		Experimental Neurology 2009
NCX 2057, a novel NO-releasing derivative of ferulic acid, suppresses inflammatory and nociceptive responses in in vitro and in vivo models: NCX 2057 is anti-inflammatory and anti-nociceptive
D Ronchetti, V Borghi, G Gaitan, JF Herrero, F Impagnatiello 		British Journal of Pharmacology 2009

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