Inhibition of the effects of adenosine on force of contraction and the slow calcium inward current by pertussis toxin is associated with myocardial lesions

The effects of adenosine and the adenosine receptor agonist (–)-N6-phenyl-isopropyladenosine (PIA) in the presence of isoprenaline on isometric force of contraction and calcium dependent slow action potentials were studied in papillary muscles from guinea pigs pretreated with pertussis toxin and control guinea pigs. Hearts from guinea pigs treated in the same way with pertussis toxin or solvent alone underwent histological examination. For comparison, hearts from isoprenaline treated guinea pigs were also studied. Pertussis toxin specifically inactivates guanine nucleotide binding proteins (N proteins) involved in transmembrane signal transduction in many receptor systems (for example, adenosine receptors, m-cholinoceptors, and alpha2 adrenoceptors). In papillary muscles from control guinea pigs adenosine and PIA in the presence of isoprenaline produced a negative inotropic effect and inhibited the maximal rate of depolarisation of slow calcium dependent action potentials in potassium depolarised papillary muscles. After pretreatment with pertussis toxin the inhibitory effects both on force of contraction and on the maximal rate of depolarisation of adenosine and PIA were abolished. Treatment with pertussis toxin produced disseminated myocardial necrosis and a disseminated cellular calcium overload evidenced by glyoxal-2-bis-hydroxyanil (GBHA) staining. Similar lesions (for example, myocardial necrosis and cellular calcium overload) were also observed after treatment with isoprenaline. In controls neither myocardial necrosis nor cellular calcium overload was found. It is concluded that pertussis toxin sensitive N proteins are involved in the inhibitory effects of adenosine and PIA on force of contraction and on slow calcium inward current during beta adrenergic stimulation. The functional uncoupling of myocardial adenosine receptors or m-cholinoceptors with pertussis toxin resulting in unopposed beta adrenergic stimulation is accompanied by the development of myocardial necrosis and of cellular calcium overload. Hence, an impaired adenosine mediated inhibition during the stimulation of beta adrenoceptors or defective N proteins could contribute to the pathogenesis of cardiomyopathy due to cellular calcium overload.