We have previously described opioid peptidomimetic, 1, employing a tetrahydroquinoline scaffold and modeled on a series of cyclic tetrapeptide opioid agonists. We have recently described modifications to these peptides that confer a mu opioid receptor (MOR) agonist, delta opioid receptor (DOR) antagonist profile, which has been shown to reduce the development of tolerance to the analgesic actions of MOR agonists. Several such bifunctional ligands have been reported, but none has been demonstrated to cross the blood brain barrier. Here we describe the transfer of structural features that evoked MOR agonist/DOR antagonist behavior in the cyclic peptides to the tetrahydroquinoline scaffold and show that the resulting peptidomimetics maintain the desired pharmacological profile. Further, the 4R diastereomer of 1 was fully efficacious and approximately equipotent to morphine in the mouse warm water tail withdrawal assay following intraperitoneal administration and thus a promising lead for the development of opioid analgesics with reduced tolerance.
The present study examined the effect of opioid receptor agonists in the rat forced swim assay. The ␦ -opioid receptor agonists SNC80 (( ϩ )-4-[( ␣ R)-␣ -((2S,5R)-4-Allyl-2,5-dimethyl-1-piperazinyl)-3-methoxybenzyl]-N,Ndiethylbenzamide) and ( 7 ␣ ,5]classes of compounds have also been investigated and have potential antidepressant activity. One such class of agents is the opioids. Studies have been performed using a variety of different opioid system-enhancing agents that suggest an antidepressant role for opioid agonists. Such studies have demonstrated antidepressant activity with the opioid ligand cyclazocine (Fink et al. 1970; open, placebo-controlled study) and with the opioid peptide  -endorphin (Kline et al. 1977; open study). Interestingly, the enkephalinase inhibitors RB101 and BL-2401 exert an antidepressant-like action in a learned helplessness assay in rats, presumably by inhibiting the degradation of endogenous opioids (Baamonde et al. 1992;Kita et al. 1997). The effect of RB101 was reversed by the ␦ -opioid receptor antagonist nal-
delta-Mediated convulsions do occur in rats and can be prevented without affecting the delta-mediated effects in the forced swim assay. Therefore the convulsant activity of (+)BW373U86 and possibly other non-peptidic delta-agonists is not required for activity in the forced swim assay.
Rationale-Delta-opioid agonists produce a number of behavioral effects, including convulsions, anti-nociception, locomotor stimulation, and antidepressant-like effects. The development of these compounds as treatments for depression is limited by their convulsive effects. Therefore, determining how to separate the convulsive and antidepressant-like characteristics of these compounds is essential for their potential clinical use.Objective-The present study tests the hypothesis that the rate of delta-opioid agonist administration greatly contributes to the convulsive properties, but not the anti-depressant-like effects, of delta-opioid agonists.Materials and methods-The delta-opioid agonist SNC80 (1, 3.2, and 10 mg kg −1 or vehicle) was administered to Sprague-Dawley rats by intravenous infusion over different durations of time (20 s, 20, or 60 min). Convulsions were measured by observation prior to determining antidepressantlike effects in the forced swim test.Results-Slowing the rate of SNC80 administration minimized delta agonist-induced convulsions without altering the effects of SNC80 in the forced swim test.Conclusions-These data suggest that delta agonist-induced antidepressant properties are independent of convulsive effects, and that it may be possible to eliminate the convulsions produced by delta agonists, further promoting their potential clinical utility.
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