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  • Title: Antinociceptive activity of [beta-methyl-2', 6'-dimethyltyrosine(1)]-substituted cyclic [D-Pen(2), D-Pen(5)]Enkephalin and [D-Ala(2),Asp(4)]Deltorphin analogs.
    Author: Bilsky EJ, Qian X, Hruby VJ, Porreca F.
    Journal: J Pharmacol Exp Ther; 2000 Apr; 293(1):151-8. PubMed ID: 10734164.
    Abstract:
    Research in our laboratories involves the development of selective opioid agonists and antagonists as: 1) pharmacological tools to elucidate the mechanisms of opioid antinociception, and 2) potential analgesics that possess therapeutic advantages over currently available drugs. We hypothesized that the selectivity of peptide agonists toward the opioid receptor types and subtypes is topographically dependent. The current results assess the antinociceptive activity and opioid receptor selectivity of a series of beta-methyl-2',6'-dimethyltyrosine (TMT)-substituted cyclic [D-Pen(2),D-Pen(5)]enkephalin (DPDPE) and [D-Ala(2), Asp(4)]deltorphin (DELT I) analogs. Compounds were injected via the intracerebroventricular route into male ICR mice, and antinociception was assessed using the 55 degrees C warm water tail-flick test. Antinociceptive A(50) values ranged from 0.35 to 17 nmol for the DELT I analogs and from 7.05 to >100 nmol for the DPDPE analogs. To test for receptor selectivity, mice were treated with selective mu- and delta-opioid antagonists. In general, mu [beta-funaltrexamine (beta-FNA)]- and delta(1) ([D-Ala(2),Leu(5), Cys(6)] enkephalin)-antagonists blocked the antinociceptive actions of [TMT(1)]DPDPE analogs, whereas the antinociceptive actions of [TMT(1)]DELT I analogs were more sensitive to antagonism by the delta(2)-selective antagonist [Cys(4)]deltorphin and the mu-antagonist beta-FNA. The antinociceptive actions of the [(2R, 3S)-TMT(1)]DELT I analog was suppressed by both [D-Ala(2),Leu(5), Cys(6)]enkephalin and beta-FNA. These results are in contrast to those found with the parent molecules DPDPE (primarily a delta(1) agonist) and DELT I (a mixed delta(1)/delta(2) agonist). These results demonstrate that topographical modification in position 1 of the DPDPE and DELT I peptides affects antinociceptive potency and opioid receptor selectivity.
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