Thermodynamic analysis of the temperature dependence of the dissociation constant of naloxone at opioid delta receptors in the mouse isolated vas deferens

Abstract

Dissociation constants (KB) for naloxone inhibition of the actions of DPDPE in the mouse isolated vas deferens preparation (inhibition of electrically induced twitch) were determined at five temperatures ranging between 25 and 40 degrees C. The values of KB tended to increase with temperature over the range examined, indicating that the affinity of naloxone for the opioid delta receptor is an inverse function of temperature. Using these data, the thermodynamic quantities delta G zero' (change in free energy), delta H zero' (change in enthalpy) and delta S zero' (change in entropy) were calculated from a van't Hoff plot of in (KB) against 1/T. The thermodynamic quantities determined in this study in vivo (delta G zero' = -10.59 kcal mol-1, delta H zero' = -15.73 kcal mol-1 and delta S zero' = -0.0168 kcal mol-1 zero K-1) are consistent with data reported from radioligand binding studies in vitro and suggest that the interaction between naloxone and the opioid delta receptor in the mouse isolated vas deferens is enthalpy driven. These data represent the first evaluation of the thermodynamics of opioid antagonist/receptor interaction in a physiological assay.