Characterization of Alkaloid Uptake by Catharanthus roseus (L.) G. Don Protoplasts

Abstract

The accumulation of alkaloids by protoplasts of Catharanthus roseus (L.) G. Don var. Little Bright Eye was studied to determine the specificity of uptake and the role of ion trapping in the storage of alkaloids. Accumulation of the indole alkaloids vindoline, ajmalicine, tabersonine, and vinblastine was found to be biphasic, with an initial burst of uptake followed by a slow, prolonged phase of accumulation. The concentration and pH dependence of the initial burst of uptake for vindoline suggested that uptake occurred by simple diffusion. Uptake of nicotine was monophasic, with a half life of 5.2 minutes. The accumulation ratio (Ci/Ce) for nicotine at steady state and for the initial burst of uptake for vindoline and ajmalicine suggested that accumulation was driven by the pH gradient between the vacuole and the external assay medium. The second, sustained phase of uptake of vindoline was sensitive to inhibition by either 20 millimolar NaN₃ or 0.5 millimolar Cu²⁺. In azide-treated protoplasts, the uptake for vindoline conformed to the kinetics of simple diffusion, with a half life of 4 minutes. The second phase of uptake for ajmalicine, although sensitive to inhibition by Cu²⁺, was insensitive to inhibition by NaN₃. The biphasic uptake of the indole alkaloids was not due to any significant metabolism. It is concluded that accumulation and storage of the indole alkaloids is due only partly to ion trapping of the alkaloids by the low pH of the vacuole lumen. In the case of vindoline, there appears to be a specific energy-requiring uptake that is not seen with nicotine (which is not endogenous to Catharanthus). Accumulation of ajmalicine appears to involve both ion trapping and an azide-insensitive component, which may be due to complexation with organic counterions and phenolics.