1. Academic Validation
  2. Etamicastat, a new dopamine-ß-hydroxylase inhibitor, pharmacodynamics and metabolism in rat

Etamicastat, a new dopamine-ß-hydroxylase inhibitor, pharmacodynamics and metabolism in rat

  • Eur J Pharmacol. 2014 Oct 5;740:285-94. doi: 10.1016/j.ejphar.2014.07.027.
Ana I Loureiro 1 Maria João Bonifácio 1 Carlos Fernandes-Lopes 1 Bruno Igreja 1 Lyndon C Wright 1 Patrício Soares-da-Silva 2
Affiliations

Affiliations

  • 1 Department of Research and Development, BIAL - Portela & Cª, S.A., 4745-457S Mamede do Coronado, Portugal.
  • 2 Department of Research and Development, BIAL - Portela & Cª, S.A., 4745-457S Mamede do Coronado, Portugal; Department of Pharmacology and Therapeutic, Faculty of Medicine, Porto, Portugal. Electronic address: psoares.silva@bial.com.
Abstract

Despite the importance of sympathetic nervous system in pathophysiological mechanisms of cardiac heart failure and essential hypertension, therapy specifically targeting the sympathetic nervous system is currently underutilized. Etamicastat is a novel dopamine-ß-hydroxylase (DBH) inhibitor that is oxidized into BIA 5-965 and deaminated followed by oxidation to BIA 5-998, which represents 13% of total etamicastat and quantified metabolites. However, the primary metabolic pathway of etamicastat in rats was found to be the N-acetylation (BIA 5-961), which represents 44% of total etamicastat and quantified metabolites. Trace amounts of BIA 5-961 de-sulfated and S-glucuronide were also detected. All the main metabolites of etamicastat inhibited DBH with IC50 values of 306 (228, 409), 629 (534, 741), 427 (350, 522) nM for BIA 5-965, BIA 5-998 and BIA 5-961, respectively. However, only etamicastat (IC50 of 107 (94; 121) nM) was able to reduce Catecholamine levels in sympathetic nervous system innervated peripheral tissues, without effect upon brain catecholamines. Quantitative whole body autoradiography revealed a limited transfer of etamicastat related radioactivity to brain tissues and the mean recovery of radioactivity was ~90% of the administered radioactive dose, eliminated primarily via renal excretion over 5 days. The absolute oral bioavailability of etamicastat was 64% of the administered dose. In conclusion, etamicastat is a peripheral selective DBH inhibitor mainly N-acetylated in the aminoethyl moiety and excreted in urine. Etamicastat main metabolites inhibit DBH, but only etamicastat demonstrated unequivocal pharmacological effects as a DBH inhibitor with impact upon the activity of the sympathetic nervous system under in vivo conditions.

Keywords

Distribution; Dopamine-ß-hydroxylase; Etamicastat; Metabolism.

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