The apparent thermodynamic parameters of binding of ten ligands to the cloned rat mu-opioid receptor stably expressed in Chinese hamster ovary (CHO) cells were investigated. For every ligand, the Kd or Ki values at 0 degrees C, 12 degrees C, 25 degrees C and 37 degrees C were determined, a van't Hoff plot was generated and deltaH degrees' , deltaS degrees' and -TdeltaS degrees' and deltaG degrees' were calculated. Changes in free energy (deltaG degrees') ranged from -10.35 to -15.65 kcal/mol. The binding of sufentanil, ohmefentanyl, diprenorphine and D-Phe-Cys-Tyr-D-Trp-Arg-Thr-penicillamineThr-NH2 (CTAP) was endothermic (deltaH degrees' > 0) and driven by an increase in entropy (-TdeltaS degrees' = -13.08 to -18.57 kcal/mol). The binding of naltrexone was exothermic (deltaH degrees' = -12.56 kcal/mol) and essentially enthalpy-driven. The binding of morphine, methadone, pentazocine, [D-Ala2, NMePhe4, Gly-ol]enkephalin (DAMGO) and Tyr-Pro-NMePhe-D-Pro-NH2 (PL017) was exothermic (deltaH degrees' = -3.53 to -9.95 kcal/mol) and occurred with an increase in entropy (-TdeltaS degrees' = -2.48 to -7.92 kcal/mol). Plots of enthalpy versus entropy and enthalpy versus free energy were linear, although enthalpy-entropy compensation was not evident. The entropy changes were not correlated with apparent lipophilicity of the compounds. These results suggest that: (1) opioid ligands bind to the mu receptor by specific mechanisms, unrelated to lipid solubility; (2) the mechanism of binding is not universally different for peptide and non-peptide ligands; (3) the nature of binding does not a priori determine intrinsic activity. The results reveal a novel differentiation of opioid ligands into two groups (group 1: ohmefentanyl, sufentanil, diprenorphine, CTAP and PL017; group 2: naltrexone, morphine, methadone, DAMGO, pentazocine), based on two distinct relationships between enthalpy versus free energy of binding, the details of which are yet to be elucidated.