Partial vasopressin 1a receptor agonism reduces portal hypertension and hyperaldosteronism and induces a powerful diuretic and natriuretic effect in rats with cirrhosis and ascites

The vasopressin system has emerged as a therapeutic focus for lowering portal hypertension and reducing splanchnic vasodilation in patients with refractory ascites. Clinically available vasopressin agonists are limited by preferential selectivity for V1 receptors that also have steep concentration–r...

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Veröffentlicht in:Biomedicine & pharmacotherapy 2023-09, Vol.165, p.115116-115116, Article 115116
Hauptverfasser: Fernández-Varo, Guillermo, Jiménez, Wladimiro, Cable, Edward, Ginès, Pere, Harris, Geoff, Bukofzer, Stan
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Sprache:eng
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Zusammenfassung:The vasopressin system has emerged as a therapeutic focus for lowering portal hypertension and reducing splanchnic vasodilation in patients with refractory ascites. Clinically available vasopressin agonists are limited by preferential selectivity for V1 receptors that also have steep concentration–response curves with potential risks of excess vasoconstriction and/or complete antidiuretic effects. OCE-205 is a novel, selective, partial V1a receptor agonist with mixed agonist/antagonist activity and no V2 receptor activation at therapeutic doses. We carried out two studies assessing the in vivo effects of OCE-205 in different rat models of cirrhosis and ascites. In a carbon tetrachloride rat cirrhosis model, OCE-205 administration produced a marked reduction in portal hypertension and hyperaldosteronism, along with robust diuretic and natriuretic effects. These effects were accompanied by marked decreases in ascites volume, with three of five animals experiencing total mobilization of ascites. There was no evidence of fluid overload or sodium or water retention, confirming OCE-205′s lack of V2 receptor activity. In a second, corroborative study using a bile duct ligation rat model of ascites, OCE-205 produced significant decreases in ascites volume and body weight and a significant increase in urine volume versus vehicle. Urine sodium excretion increased significantly after the first administration of OCE-205 relative to vehicle; however, repeat administration over 5 days did not lead to hyponatremia. Thus, in separate in vivo models, the mixed agonist/antagonist OCE-205 demonstrated relevant and expected endpoint findings consistent with its known mechanism of action and in vitro pharmacology without apparent unwanted effects or nonspecific toxicities. [Display omitted] •Preferential V1a selectivity limits clinically available vasopressin agonists.•OCE-205 is a selective, partial V1a receptor agonist with no V2 activation.•OCE-205 was studied in two rat models of cirrhosis and ascites.•Portal hypertension, serum aldosterone, and ascites volume were markedly reduced.•Robust diuretic/natriuretic effects, no fluid overload or sodium/water retention.
ISSN:0753-3322
1950-6007
DOI:10.1016/j.biopha.2023.115116