Glucagon: endocrine effects and calcium involvement in cardiovascular actions in dogs.

: Although the cardiovascular effects of glucagon are understood, its mechanism(s) of action remains unclear. We studied the effects of increasing doses of glucagon (0.001, 0.01, 0.1 mg/kg) on cardiovascular responses in dogs relative to concurrent measurements of circulating glucagon, cyclic AMP, glucose, norepinephrine, epinephrine, triiodothyronine, thyroxine, and cortisol levels. Glucagon-induced increases in plasma cyclic AMP, glucose, and catecholamine concentrations paralleled the heart rate response to glucagon administration. Further studies were conducted to evaluate the role of beta-adrenergic function as well as calcium in mediating glucagon's actions. The tachycardic effects of glucagon (0.01 mg/kg) were unaltered by prior beta-adrenergic receptor blockade with propranolol (3.5 mg/kg total dose). The calcium antagonist verapamil (0.2 mg/kg bolus then 7.5 micrograms/kg/min/infusion) prevented glucagon-induced increases in heart rate. However, the coadministration of glucagon (0.01 mg/kg) with calcium (1.0, 5.0, 10.0, or 50.0 mg/kg) did not alter glucagon's cardiovascular effects. These data indicate that glucagon is a potent tachycardiac agent that also elevates circulating endocrine-related substances. The antagonism of glucagon's tachycardiac effects by verapamil suggests that glucagon's action may be via glucagon-induced calcium movement through calcium channels, although extracellular calcium changes do not alter glucagon's effect. Furthermore, the persistence of glucagon's cardiovascular actions following beta-adrenergic blockade indicates the potential clinical utility of glucagon in reversing the adverse effects of beta-blocker overdoses, and its potential usefulness in treating circulatory shock in "beta-blocked" patients.