Loperamide binding to opiate receptor sites of brain and myenteric plexus.

Loperamide, a new antidiarrheal agent, was tested to determine whether its biological activity involves binding to opiate receptor sites. Loperamide and morphine competitively inhibited 3H-naloxone binding to homogenates a guinea-pig brain and myenteric plexus. The Kp values obtain in the presence of Na+ were: morphine, 9.60-10(-9) M (brain), 1.66-10(-7) M (myenteric plexus); loperamide, 7.20-10(-9) M (brain), 1.33-10(-7) M (myenteric plexus); naloxone, 4.78-10(-10) M (brain), 1.27-10(-9) M (myenteric plexus. In the absence of Na+, binding a loperamide and morphine to brain homogenate was enhanced while the binding of naloxone was reduced. Morphine (IC50 = 7.5-10(-8) M) and loperamide (IC50 = 6.9-10(-9) M) inhibited the electrically induced contractions of longitudinal muscle from guinea-pig ileum, and naloxone competitively antagonized these effects. The Kd value calculated for the interaction of naloxone with binding sites associated with the contracting muscle was between 0.98-10(-9) M and 1.85-10(-9) M. In the mouse hot plate test, subcutaneous administration of morphine (minimal effective dose = 6.6 mugmol/kg) and loperamide (minimal effective dose = 78 mugmol/kg) delayed the response to heat stimuli and this effect was completely blocked by prior administration of naloxone. In the anesthetixed dog, intravenous administration of morphine (100 mug/kg) and loperamide (100 mug/kg) enhanced the contractile activity of circular muscle in proximal and distal duodenum, distal ileum and proximal colon but duodenal longitudinal muscle was relaxed; these effects were completely reversed by subsequent administration of naloxone. It is concluded that loperamide binds to opiate receptor sites and possesses opiate agonist activity both in vivo and in vitro.