We utilized a technique, previously used to study myocardial cells (G. A. Langer, J. S. Frank, and L. M. Nudd, 1979, Amer. J. Physiol. 237, H239-H246), to study 45Ca2+ isotope exchange kinetics in hepatocyte monolayers, cultured on scintillation disks, and perfused in a flow-through chamber. Isolated rat hepatocytes were plated directly on Primaria-coated disks impregnated with scintillation fluors which made up the walls of the perfusion chamber. Following the labeling of the cells with radioactive calcium (45Ca2+), to apparent asymptote, the washout of 45Ca2+ from the cells was measured. A large very fast turnover compartment, as well as small fast and slow turnover compartments, were identified in each experiment. Surface calcium (Ca2+) was determined by its displacement with 1 mM La3+ after asymptote had been reached during 45Ca2+ labeling (1.59 mmol Ca2+/kg dry wt). The rate constant for this compartment was faster than the washout of the chamber (greater than 3.4 min-1 with a t1/2 less than 12 s). The rate constants for the fast and slow exchangeable compartments were 0.11 min-1 (t1/2 = 6.5 min) and 0.013 min-1 (t1/2 = 56 min), respectively. The fast compartment contained 0.40 mmol Ca2+/kg dry wt and the slow compartment contained 0.27 mmol Ca2+/kg dry wt. Neither the fast nor the slow compartment was lanthanum displaceable. Release of 45Ca2+ in response to 100 microM phenylephrine, 10 nM angiotensin II, and 100-microM 2,5-ditert-butyl hydroquinone was measured during the washout phase. Ca2+ released by these compounds was determined to be 0.50 mmol 0.44, and 0.43 mmol Ca2+/kg dry cell wt, respectively. These agents had an effect only during the washout of the fast compartment. In conclusion, this novel technique of on-line measurement of 45Ca2+ exchange in hepatocyte monolayers identified three exchangeable compartments: (1) a very rapidly exchangeable surface compartment, (2) a fast "microsomal" hormone-releasable compartment, and (3) a slow, non-hormone-releasable compartment.