β 3 -adrenergic receptor (β 3 -AR) activation produces a negative inotropic effect in human ventricles. Here we explored the role of β 3 -AR in the human atrium. Unexpectedly, β 3 -AR activation increased human atrial tissue contractility and stimulated the L-type Ca 2+ channel current (I Ca,L ) in isolated human atrial myocytes (HAMs). Right atrial tissue specimens were obtained from 57 patients undergoing heart surgery for congenital defects, coronary artery diseases, valve replacement, or heart transplantation. The I Ca,L and isometric contraction were recorded using a whole-cell patch-clamp technique and a mechanoelectrical force transducer. Two selective β 3 -AR agonists, SR58611 and BRL37344, and a β 3 -AR partial agonist, CGP12177, stimulated I Ca,L in HAMs with nanomolar potency and a 60%-90% efficacy compared with isoprenaline. The β 3 -AR agonists also increased contractility but with a much lower efficacy (~10%) than isoprenaline. The β 3 -AR antagonist L-748,337, β 1 -/β 2 -AR antagonist nadolol, and β 1 -/β 2 -/β 3 -AR antagonist bupranolol were used to confirm the involvement of β 3 -ARs (and not β 1 -/β 2 -ARs) in these effects. The β 3 -AR effects involved the cAMP/PKA pathway, since the PKA inhibitor H89 blocked I Ca,L stimulation and the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (IBMX) strongly increased the positive inotropic effect. Therefore, unlike in ventricular tissue, β 3 -ARs are positively coupled to L-type Ca 2+ channels and contractility in human atrial tissues through a cAMP-dependent pathway.
The aim of the study was to investigate an action of 2-aminopyridine and its new sulfonylcarbamide derivatives 2-AP21, 2-AP22, 2-AP26, and 2-AP27 (10–5–10–3 M) on carbachol-induced shortening of action potential duration and reduction of contraction force in guinea pig atrial muscles. Experiments were carried out using a standard method of myocardium electromechanical activity registration. Under control conditions (perfusion of atrial strips with Tyrode solution), an average of action potential duration, measured at 90% (AP90) and 50% (AP50) of repolarization, were 112.32±6.07 ms and 50.21±3.25 ms, (n=19), respectively, and contraction force was of 1.42±0.28 mN (n=20). Carbachol (10–6M), an agonist of muscarinic acetylcholine receptor and activator of KAch channels, markedly decreased AP90 to 35.31±4.21%, AP50 – to 26.42±2.66% (n=19) (P<0.001), and contraction force – to 24.23±2.0% (n=20) (P<0.001) vs. control. Modification of 2-aminopyridine structure by replacing 2-amino group by 4-toluolsulfonylcarbamide fragment and quaternization of nitrogen in pyridine ring increased anticholinergic effect on action potential duration and contraction force. According to their maximal prolongation of AP at 90% of repolarization, all new drugs ranked as follows: 2-AP27>>2-AP26>2-AP22³2-AP>2-AP21. 2-aminopyridine derivative 2-AP27, containing 4-toluolsulfonylcarbamide fragment and 4-nitrobenzyl radical at quaternized nitrogen of the pyridine, had the most potent anticholinergic effect on AP90 (936.60±178.23%). 2-AP22 and 2-AP26 (containing methyl or allyl radicals at quaternized nitrogen of the pyridine, respectively) showed a much weaker anticholinergic effect (231.39±28.48% and 318.25±63.81%, respectively). The weakest anticholinergic effect (63.59±34.38%) was induced by 2-aminopyridine derivative 2-AP21, which had non-quaternized nitrogen of the pyridine.
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