Abstract
β-Blockers reduce mortality and improve symptoms in people with heart disease; however, current clinically available β-blockers have poor selectivity for the cardiac β1-adrenoceptor (AR) over the lung β2-AR. Unwanted β2-blockade risks causing life-threatening bronchospasm and reduced efficacy of β2-agonist emergency rescue therapy. Thus, current life-prolonging β-blockers are contraindicated in patients with both heart disease and asthma. Here, we describe NDD-713 and -825, novel highly β1-selective neutral antagonists with good pharmaceutical properties that can potentially overcome this limitation. Radioligand binding studies and functional assays that use human receptors expressed in Chinese hamster ovary cells demonstrate that NDD-713 and -825 have nanomolar β1-AR affinity >500-fold β1-AR vs. β2-AR selectivity and no agonism. Studies in conscious rats demonstrate that these antagonists are orally bioavailable and cause pronounced β1-mediated reduction of heart rate while showing no effect on β2-mediated hindquarters vasodilatation. These compounds also have good disposition properties and show no adverse toxicologic effects. They potentially offer a truly cardioselective β-blocker therapy for the large number of patients with heart and respiratory or peripheral vascular comorbidities.—Baker, J. G., Gardiner, S. M., Woolard, J., Fromont, C., Jadhav, G. P., Mistry, S. N., Thompson, K. S. J., Kellam, B., Hill, S. J., Fischer, P. M. Novel selective β1-adrenoceptor antagonists for concomitant cardiovascular and respiratory disease.
Highlights
ABBREVIATIONS: AR, adrenoceptor; CHO, Chinese hamster ovary; CLint, intrinsic clearance; COPD, chronic obstructive pulmonary disease; CRE, cAMP response element; FEV1, forced expiratory volume in 1 s; fu, unbound fraction; Hindquarters vascular conductance (HQC), hindquarters vascular conductance; HR, heart rate; ISA, intrinsic sympathomimetic activity; LC-MS, liquid chromatography–mass spectrometry; P450, cytochrome P450; PK, pharmacokinetic; SI, selectivity index; SPAP, secreted alkaline phosphatase; ultraperformance LC-MS (UPLC-MS), ultraperformance liquid chromatography–mass spectrometry
A meta-analysis of randomized controlled trials of b-blockers in those with asthma reports a significant fall in lung function [forced expiratory volume in 1 s (FEV1)], an increase in symptoms, and attenuation of b2-agonist rescue with cardioselective and nonselective b-blockers [13]
Catastrophic outcomes have been reported [17,18,19,20,21,22,23]. These studies suggest that b1-selective b-blockers are better than nonselective b-blockers, but that current cardioselective agents still pose a risk to those with asthma. b-Blockers are contraindicated in patients with asthma [24]
Summary
ABBREVIATIONS: AR, adrenoceptor; CHO, Chinese hamster ovary; CLint, intrinsic clearance; COPD, chronic obstructive pulmonary disease; CRE, cAMP response element; FEV1, forced expiratory volume in 1 s; fu, unbound fraction; HQC, hindquarters vascular conductance; HR, heart rate; ISA, intrinsic sympathomimetic activity; LC-MS, liquid chromatography–mass spectrometry; P450, cytochrome P450; PK, pharmacokinetic; SI, selectivity index; SPAP, secreted alkaline phosphatase; UPLC-MS, ultraperformance liquid chromatography–mass spectrometry. As up to 50% of patients with COPD have significant airway reversibility (improvement in lung function with b-agonists), they are at risk of bronchospasm from b-blockers [28, 29]. b-Blockers reduce lung function in COPD, often by more than the 5 to
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