Effect on heart rate over 24 hours of pindolol administered for 14 days

Intrinsic sympathomimetic activity of (-)-pindolol mediated through a (-)-propranolol-resistant site of the beta1-adrenoceptor in human atrium and recombinant receptors

The beta-blocker (-)-pindolol produces intrinsic sympathomimetic activity manifested clinically by cardiostimulation, but the beta-adrenoceptor subtype, which mediates these effects, is unknown. Recent work indicates the existence of a (-)-propranolol-resistant site of the cardiac beta(1)-adrenoceptor and we propose that it mediates the cardiostimulation evoked by (-)-pindolol. We compared the interaction of (-)-pindolol both with human atrial myocardium and with recombinant beta(1)-adrenoceptors. The effects of (-)-pindolol on paced human atrial trabeculae were studied in the presence of 3-isobutyl-1-methylxanthine (IBMX; 20 microM). (-)-Pindolol caused small negative and positive inotropic effects at nanomolar and micromolar concentrations respectively, which were unaffected by N(G)-monomethyl-L-arginine (L-NMMA, 10 microM), inconsistent with an involvement of nitric oxide. (-)-Pindolol, in the presence of (-)-propranolol, increased atrial contractile force and cAMP through recombinant beta(1)-adrenoceptors with identical potency (-logEC(50)M=6.5). The positive inotropic effects of (-)-pindolol were resistant to blockade by L-748,337 (100 nM), a beta(3)-adrenoceptor antagonist. (-)-CGP12177, known to act through the (-)-propranolol-resistant site of the beta(1)-adrenoceptor, also increased with similar potency atrial contractile force (-logEC(50)M=7.6) and cAMP at recombinant beta(1)-adrenoceptors (-logEC(50)M=7.7). (-)-Pindolol blocked the effects of (-)-CGP12177 in human atrium and recombinant beta(1)-adrenoceptors with similar equilibrium dissociation constants (pK(B)=6.5 and 6.3). Thus, stimulant potency and blocking potency of (-)-pindolol against (-)-CGP12177 agree. In contrast, (-)-pindolol was 200-400 times more effective at blocking the effects of a catecholamine than the effects of (-)-CGP12177 in both human atrium (pK(B)=9.1) and at recombinant beta(1)-adrenoceptors (pK(B)=8.6). We conclude that the cardiostimulant effects of (-)-pindolol in human atrial myocardium are mediated through a (-)-propranolol-resistant site of the beta(1)-adrenoceptor with low affinity for (-)-pindolol. In contrast, (-)-pindolol blocks the effects of catecholamines through a high-affinity site of the beta(1)-adrenoceptor. beta(3)-Adrenoceptors are not involved in the atrial effects of (-)-pindolol.

Hemodynamic effects of pindolol and atenolol at rest and during isometric exercise: a noninvasive study with healthy volunteers

Hemodynamic effects of intravenous and oral pindolol and atenolol were assessed in ten healthy volunteers by left ventricular echocardiography and systolic time intervals. Measurements were made at rest and during hand-grip-induced isometric exercise. Drug doses were pindolol 0.015 mg/kg intravenously and 10 mg/day orally, atenolol 0.1 mg/kg intravenously, and 50 mg/day orally. Heart rate at rest was reduced by both drugs. The reduction caused by atenolol during oral treatment was significantly greater (p less than 0.01). Intravenously only pindolol reduced mean arterial pressure. During oral treatment atenolol reduced the mean arterial pressure nonsignificantly. Both drugs lowered heart rate during isometric exercise, atenolol being significantly more effective. During oral treatment atenolol blunted the heart-rate reaction to exercise. Mean arterial pressure during isometric exercise rose slightly with both drugs after intravenous administration. During oral treatment only atenolol reduced the mean arterial pressure significantly. Intravenous atenolol reduced cardiac contractility at rest, indicated by significant decreases in fractional shortening, ejection fraction, and the mean velocity of circumferential fiber shortening. In contrast, intravenous pindolol and oral therapy with either drug did not change contractility. Intravenous atenolol raised total peripheral resistance. The preejection period/left ventricular ejection time ratio decreased with intravenous pindolol, while atenolol increased it. In conclusion, atenolol had more negative inotropic and chronotropic effects, especially after acute intravenous administration. Only atenolol reduced cardiac output and increased peripheral resistance. After repeated oral administration, these effects were less apparent.(ABSTRACT TRUNCATED AT 250 WORDS)