Pharmacological Insights into Safety and Efficacy Determinants for the Development of Adenosine Receptor Biased Agonists in the Treatment of Heart Failure

ABSTRACT

Adenosine A₁ receptors (A₁R) are a potential target for cardiac injury treatment due to their cardioprotective/antihypertrophic actions, but drug development has been hampered by on-target side effects such as bradycardia and altered renal haemodynamics. Biased agonism has emerged as an attractive mechanism for A₁R-mediated cardioprotection that is haemodynamically safe. Here we investigate the pre-clinical pharmacology, efficacy and side-effect profile of the A₁R agonist neladenoson, shown to be safe but ineffective in phase IIb trials for the treatment of heart failure. We compare this agent with the well-characterised, pan-adenosine receptor (AR) agonist NECA, capadenoson, and the A₁R biased agonist VCP746, previously shown to be safe and cardioprotective in pre-clinical models of heart failure.

We show that like VCP746, neladenoson is biased away from Ca²⁺ influx relative to NECA and the cAMP pathway at the A₁R, a profile predictive of a lack of adenosine-like side effects. Additionally, neladenoson was also biased away from the MAPK pathway at the A₁R. In contrast to VCP746, which displays more ‘adenosine-like’ signalling at the A_2BR, neladenoson was a highly selective A₁R agonist, with biased, weak agonism at the A_2BR. Together these results show that unwanted haemodynamic effects of A₁R agonists can be avoided by compounds biased away from Ca²⁺ influx relative to cAMP, relative to NECA. The failure of neladenoson to reach primary endpoints in clinical trials suggests that A₁R-mediated cAMP inhibition may be a poor indicator of effectiveness in chronic heart failure. This study provides additional information that can aid future screening and/or design of improved AR agonists that are safe and efficacious in treating heart failure in patients.