Seven ACE inhibitors were studied for possible differences in distribution to aorta, brain, heart, lung, and kidney after administration of single oral doses to spontaneously hypertensive rats (SHR). Doses, normalized for differences in inhibitory potency and molecular weight, were expected to deliver equivalent levels of ACE-inhibitory activity to the circulation, and this was confirmed by preliminary dose-response studies. The relative potencies of the active moieties of the seven drugs and the normalized oral doses used were: SQ 29,852 (1.0), 100 mg/kg; captopril (3.5), 30 mg/kg; enalapril (12), 20 mg/kg; fosinopril (13), 25 mg/kg; zofenopril (20), 10 mg/kg; lisinopril (24), 10 mg/kg; and ramipril (51), 5 mg/kg. In these ex vivo studies, ACE activities were determined fluorometrically in SHR sera and in uncentrifuged homogenates of the solid tissues at various times after oral dosing with the ACE inhibitors. As expected, the normalized oral doses of the seven inhibitors had equivalent effects on serum ACE. In lung, where ACE has a vascular endothelial localization, and in aorta, where ACE inhibition correlates with antihypertensive action, ramipril, lisinopril, and zofenopril were distinguished by the magnitude and duration (three to four days) of their effects. In the brain, where ACE may affect central regulation of blood pressure and participate in the degradation of certain neuropeptides, ramipril and enalapril had no effect; captopril and zofenopril had modest, short-lasting effects, and fosinopril, lisinopril, and SQ 29,852 had delayed but long-lasting inhibitory actions. In the kidney, where ACE inhibition may have positive or negative effects on renal function, ramipril and fosinopril could be distinguished by their weak actions, perhaps associated with biliary routes of excretion. In the heart, where ACE inhibitors may prevent ischemic damage to the myocardium, single oral doses of captopril, fosinopril, and particularly zofenopril produced striking and long-lasting inhibition, whereas equivalent doses of ramipril and enalapril produced barely detectable inhibition.
Sophora viciifolia Hance is an edible plant used in traditional Chinese medicine. Sophocarpine, a tetracyclic quinolizidine alkaloid, is one of the most abundant active ingredients in Sophora viciifolia Hance. Here, we study the analgesic and anti-inflammatory effects, as well as the acute toxicity of sophocarpine from Sophora viciifolia Hance in mice. Sophocarpine (20, 40, and 80 mg/kgbw) significantly prolonged the delay period before a hot plate reaction occurred (all P < 0.05 ), and the delay before a tail-flick response was induced by a warm bath ( P < 0.05 ; P < 0.01 ). Sophocarpine (40, 80 mg/kg) resulted in dose-dependent inhibition of the writhing reaction induced by acetic acid in mice ( P < 0.05 ; P < 0.001 , respectively). Sophocarpine (80 mg/kg) reduced the total duration of a formalin-induced pain response ( P < 0.05 ). Sophocarpine prolonged the foot-licking latency of mice after the hot plate reaction, and this effect was antagonized by calcium chloride and enhanced by verapamil. Sophocarpine (20, 40, and 80 mg/kg) significantly inhibited xylene-induced ear edema ( P < 0.01 ; P < 0.001 ; P < 0.001 , respectively) and the penetration of acetic acid-induced dye into the peritoneal cavity ( P < 0.01 ; P < 0.01 ; P < 0.001 , respectively). It also reduced the levels of proinflammatory cytokine interleukin (IL)-1β, IL-6, and prostaglandin E2 ( P < 0.05 , P < 0.01 , P < 0.001 ) and those of serum nitric oxide ( P < 0.05 ). The results of this study suggest that sophocarpine possesses certain analgesic and anti-inflammatory activities, which may be related to calcium and inhibition of the secretion of inflammatory factors.
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