The action of renin is the rate-limiting step of the renin-angiotensin system (RAS), a key regulator of blood pressure. Effective renin inhibitors directly block the RAS entirely at source and, thus, may provide a vital weapon for hypertension therapy. Our efforts toward identifying novel small-molecule peptidomimetic renin inhibitors have resulted in the design of transition-state isosteres such as 1 bearing an all-carbon 8-phenyl-octanecarboxamide framework. Optimization of the extended P3 portion of 1 and extensive P2' modifications provided analogues with improved in vitro potencies in the presence of plasma. X-ray resolution of rh-renin/38a in the course of SAR work surprisingly unveiled the exploitation of a previously unexplored pocket (S3sp) important for strong binding affinities. Several inhibitors demonstrated oral efficacy in sodium-depleted marmosets. The most potent, 38a, induced dose-dependently a pronounced reduction in mean arterial blood pressure, paralleled by complete blockade of active plasma renin, up to 8 h post-dose. Oral bioavailability of 38a was 16% in marmosets.
SUMMARY Inhibition of renin was induced in conscious marmosets with CGP 29 287, Z-Arg-ArgPro-Phe-His-Sta-Ile-Hls-Lys (Boc)-OMe, a renin inhibitor with a prolonged duration of action. In vitro, CGP 29 287 is a potent inhibitor of primate plasma renin (inhibitory concentration, 50%: human = 1 x 10"'M; marmoset = 5 x 10"'M) and less potent against dog (2 x 10~7M)orrat(3 x 10~5 M) plasma renin. CGP 29 287 is a weak inhibitor of other aspartic proteases such as porcine pepsin or bovine cathepsin D (inhibitory concentration, 50% = 4 x 10~5 M). In furosemide-treated marmosets, CGP 29 287 lowered blood pressure and inhibited plasma renin activity during intravenous infusion and after intravenous bolus injection. The duration of action after intravenous injection was dose dependent and ranged from 1 hour after 0.1 mg/kg to more than 3 hours after 10 mg/kg. High doses of CGP 29 287 (100 mg/kg) were active after oral administration. In all experiments a close relation between inhibition of plasma renin activity and reduction of blood pressure was found. A maximum hypotensive response to CGP 29 287 was associated with complete inhibition of plasma renin activity, and the recovery of blood pressure was accompanied by recovery of plasma renin activity. The hypotensive effects of CGP 29 287 were smaller in untreated than in furosemide-treated marmosets. CGP 29 287 had no influence on blood pressure in marmosets after bilateral nephrectomy or after pretreatment with a converting enzyme inhibitor. CGP 29 287 did not affect the pressor responses to exogenous angiotensin I or angiotensin II. These results indicate that CGP 29 287 is a potent and specific inhibitor of primate renin. In furosemide-treated marmosets CGP 29 287 induced a long-lasting reduction in blood pressure that appears to be entirely due to inhibition of renin. (Hypertension 7: 797-803, 1985) KEY WORDS • renin activity converting enzyme inhibitor furosemide • cathepsin D • pepsin • statine T HE renin-angiotensin system (RAS) plays an important role in blood pressure regulation. This finding has led to considerable interest in compounds that inhibit renin, the enzyme that catalyzes the first step in the formation of the biologically active peptide angiotensin II (ANG II).1 -2 One of the first described inhibitors of renin was pepstatin, a peptide of fungal origin.3 The poor solubility, low potency, and lack of specificity of pepstatin restricted its experimental application in vivo. Subsequently, analogues of the amino acid sequence around the cleavage site of angiotensinogen were shown to inhibit renin. However, these compounds were of limited usefulness for studies in vivo because of their low potency and short biological half-life. Recently, more potent ana-
Summary. In order to test new orally active iron chelators in a predictive way, a primate model has been developed. This model makes use of the marmoset monkey (Callithrix jacchus) and its overall design is similar to a previously reported monkey model. However, this new model enables a higher compound throughput and requires lower amounts of test compound because the animals are much easier to handle and have much lower body weights. The marmosets were iron-overloaded by three intraperitoneal injections of iron (III) hydroxide polyisomaltose. For the iron-balance studies, the animals were kept in metabolic cages and were maintained on a low-iron diet in order to reduce faecal background. After compound administration, the excretion of iron in urine and faeces was followed for 2 d. A series of well-known chelators was tested for validation of the model. In particular, comparison of the iron-clearing properties of DFO, L1, CP94 and HBED in marmosets and humans demonstrated the predictive value of the model and justify our expectation that if iron chelators such as CGP65015, ICL670A and CGP75254A are active in marmosets, they will be active in humans as well.
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