The kinetics of active transport of an organic acid (fluorescein) through the membranes of the choroid plexus from the lateral ventricules of the brain of rabbit was studied both morphologically and functionally. It was shown that fluorescein is actively translocated through the apical and basal membrane of the epithelium and is accumulated in blood capillaries at a concentration exceeding one order of magnitude that in the incubation medium. The kinetic curves displaying saturation and the demonstration of inhibition by other acids shows that a specific carrier is involved in the transfer across the membrane. The active transport of fluorescein at 20 degrees C was found to be sodium independent. Total exclusion of sodium from the incubation medium does not change the Michaelis constant (Km) and maximal velocity (V). The active transport depends on the operation of (Na+ + K+)-ATPase as energy source but obviously no specific complexes with the participation of sodium are involved.