Targeting Cardiac Myocyte Na+-K+ Pump Function With ß3 Adrenergic Agonist in Rabbit Model of Severe Congestive Heart Failure.

BACKGROUND: Abnormally high cytosolic Na+ concentrations in advanced heart failure impair myocardial contractility. Stimulation of the membrane Na+-K+ pump should lower Na+ concentrations, and the ß3 adrenoceptor (ß3 AR) mediates pump stimulation in myocytes. We examined if ß3 AR-selective agonists given in vivo increase myocyte Na+-K+ pump activity and reverse organ congestion in severe heart failure (HF). METHODS: Indices for HF were lung-, heart-, and liver: body weight ratios and ascites after circumflex coronary artery ligation in rabbits. Na+-K+ pump current, Ip, was measured in voltage-clamped myocytes from noninfarct myocardium. Rabbits were treated with the ß3 AR agonists CL316,243 or ASP9531, starting 2 weeks after coronary ligation. RESULTS: Coronary ligation caused ascites in most rabbits, significantly increased lung-, heart-, and liver: body weight ratios, and decreased Ip relative to that for 10 sham-operated rabbits. Treatment with CL316,243 for 3 days significantly reduced lung-, heart-, and liver: body weight ratios and prevalence of ascites in 8 rabbits with HF relative to indices for 13 untreated rabbits with HF. It also increased Ip significantly to levels of myocytes from sham-operated rabbits. Treatment with ASP9531 for 14 days significantly reduced indices of organ congestion in 6 rabbits with HF relative to indices of 6 untreated rabbits, and it eliminated ascites. ß3 AR agonists did not significantly change heart rates or blood pressures. CONCLUSIONS: Parallel ß3 AR agonists-induced reversal of Na+-K+ pump inhibition and indices of congestion suggest pump inhibition is a useful target for treatment with ß3 AR agonists in congestive HF.