Abstract

This project will support the design and introduction of highly selective nonpeptidic delta opioid agonist as analgesics, medicines for prevention and treatment of opiate dependence, and as antidiarrheal drugs. The anticipated advantage of delta agonist is lack of constipating or other adverse gastrointestinal effects at full analgesic doses. Newly synthesized compounds that exhibits favorable analgesic properties will be rapidly and economically evaluated in mice by three routes of administration for effects on gastric emptying, small intestinal transit, and one enteropooling (a measure of effects on mucosal transport of salt and water). The routes of administration to be employed are oral, system injection (i.p.) and intracerebral injection (i.c.v.). The studies will feature dose-response and time-response evaluations of potency, bioavailability, and pharmacodynamic duration of action. Results will be employed by the chemists in further molecular design. Selected compounds that show exceptional promise, based on analgesia and gastrointestinal profiles in mice, will be subjected to definitive studies in rats with three routes of administration (p.o., i.p.,i.c.v.) to determine drug effects on regional contractile activity and propulsion in the stomach, small intestine, cecum, and colon. The delta opioid patten of activity with these endpoints is established and clearcut pharmacological goals are presented. The techniques to be employed are ongoing and have proven predictive value in humans.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute on Drug Abuse (NIDA)
Type
Research Program Projects (P01)
Project #
5P01DA008657-02
Application #
3732049
Study Section
Project Start
Project End
Budget Start
Budget End
Support Year
2
Fiscal Year
1995
Total Cost
Indirect Cost

  Institution

Name
University of Arizona
Department
Type
DUNS #
City
Tucson
State
AZ
Country
United States
Zip Code
85721

  Publications

Bird, M F; Vardanyan, R S; Hruby, V J et al. (2015) Development and characterisation of novel fentanyl-delta opioid receptor antagonist based bivalent ligands. Br J Anaesth 114:646-56
Nair, Padma; Yamamoto, Takashi; Kulkarni, Vinod et al. (2009) Novel bifunctional peptides as opioid agonists and NK-1 antagonists. Adv Exp Med Biol 611:537-8
Martin, T J; Kim, S A; Cannon, D G et al. (2000) Antagonism of delta(2)-opioid receptors by naltrindole-5'-isothiocyanate attenuates heroin self-administration but not antinociception in rats. J Pharmacol Exp Ther 294:975-82
Lashbrook, J M; Ossipov, M H; Hunter, J C et al. (1999) Synergistic antiallodynic effects of spinal morphine with ketorolac and selective COX1- and COX2-inhibitors in nerve-injured rats. Pain 82:65-72
Alfaro-Lopez, J; Okayama, T; Hosohata, K et al. (1999) Exploring the structure-activity relationships of [1-(4-tert-butyl-3'-hydroxy)benzhydryl-4-benzylpiperazine] (SL-3111), a high-affinity and selective delta-opioid receptor nonpeptide agonist ligand. J Med Chem 42:5359-68
Liao, S; Alfaro-Lopez, J; Shenderovich, M D et al. (1998) De novo design, synthesis, and biological activities of high-affinity and selective non-peptide agonists of the delta-opioid receptor. J Med Chem 41:4767-76
Bihm, C C; Williams, C L; Burks, T F (1998) Central actions of endomorphins: new endogenous opioids. Proc West Pharmacol Soc 41:81-3
Ossipov, M H; Lopez, Y; Bian, D et al. (1997) Synergistic antinociceptive interactions of morphine and clonidine in rats with nerve-ligation injury. Anesthesiology 86:196-204
Knapp, R J; Santoro, G; De Leon, I A et al. (1996) Structure-activity relationships for SNC80 and related compounds at cloned human delta and mu opioid receptors. J Pharmacol Exp Ther 277:1284-91
Malatynska, E; Wang, Y; Knapp, R J et al. (1996) Human delta opioid receptor: functional studies on stably transfected Chinese hamster ovary cells after acute and chronic treatment with the selective nonpeptidic agonist SNC-80. J Pharmacol Exp Ther 278:1083-9

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