A Method to Assess Concomitant Cardiac Phosphodiesterase Inhibition and Positive Inotropy

Abstract

Summary: The ability of positive inotropic drugs to inhibit phosphodiesterase was assessed by observance of the potentiation of inotropic responses to the low intrinsic efficacy β-adrenoceptor partial agonist prenal-terol. Previous studies have shown that an increase in tissue stimulus response capability, as is produced for β-adrenoceptors by blockade of phosphodiesterase, produces an increase in the maximal response to p-adreno-ceptor partial agonists. Using this principle, we tested cardiotonic drugs on normal and prenalterol-pretreated guinea pig left atria and compared the resulting inotropic responses statistically. Prenalterol pretreatment did not potentiate inotropic responses to methoxamine and CaCI₂ and blocked (in accordance with β-adrenoceptor occupation by a low-efficacy partial agonist) responses to norepinephrine (NE), tyramine, and to a certain extent ouabain. This latter finding was attributed to a low-level cat-echolamine-release by ouabain in this tissue. The inotropic responses to the phosphodiesterase inhibitors isobutylmethylxanthine (IBMX), theophylline, and en-prophylline were greatly potentiated. Similarly, the responses to the cardiotonic drugs (known also to be inhibitors of phosphodiesterase) milrinone, amrinone, and fenoximone were potentiated. Positive inotropy to the cardiotonic drug sulmazole was not significantly potentiated by this procedure, indicating that in this tissue sulmazole may produce inotropic responses by other mechanisms as well. In general, this simple assay may be useful to detect blockade of cardiac phosphodiesterase concomitant with positive inotropy. Although a causal relationship between the PDE inhibition and positive inotropy may not be made from these data, knowledge of PDE blockade may still be useful in the assessment of inotropic mechanism and propensity for toxic side effects.