Sufentanil, morphine, met-enkephalin, and kappa-agonist (U-50,488H) inhibit substance P release from primary sensory neurons: a model for presynaptic spinal opioid actions.

An in vitro model system for analysis of presynaptic inhibitory actions of spinal opioids has been applied. Embryonic sensory neurons derived from chick dorsal root ganglia were grown in primary cell culture, and the release of substance P was evoked by electrical field stimulation during exposure to drugs with well-demonstrated affinity for opioid receptors. This allowed a pharmacologic characterization of the inhibitory actions of specific opioid agonists on the release of substance P as measured by radioimmunoassay (RIA). Sufentanil (0.5 microM), a high affinity mu receptor agonist, U-50,488H (25 microM), a selective kappa receptor agonist, and morphine (10 microM), an agonist with high affinity for mu and delta receptors, inhibited the evoked release of substance P by approximately 60%, 40%, and 50%, respectively. For sufentanil the response was demonstrated to be dose-dependent. As is the case for its analgesic action in vivo, morphine was approximately 50-fold less potent than sufentanil on a molar basis in this assay. The actions of sufentanil, U-50-488H and morphine were mimicked by the endogenous opioid peptide met-enkephalin, and its stable synthetic analog D-ala2-met5-enkephalinamide (DAME). Naloxone (25 microM), an opioid receptor antagonist, blocked the inhibitory action of sufentanil (0.5 microM), morphine (5 microM), and DAME (5 microM), but not U-50,488H (10 microM). The action of U-50,488H was partially blocked by the antagonist naltrexone (25 microM). Stereo-selectivity of agonist action was confirmed by the failure of dextrorphan (50 microM), an inactive opioid isomer, to inhibit the release of substance P.(ABSTRACT TRUNCATED AT 250 WORDS)

Citation

H M Chang, C B Berde, G G Holz, G F Steward, R M Kream. Sufentanil, morphine, met-enkephalin, and kappa-agonist (U-50,488H) inhibit substance P release from primary sensory neurons: a model for presynaptic spinal opioid actions. Anesthesiology. 1989 Apr;70(4):672-7

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PMID: 2467589

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