The extraneuronal transport mechanism for noradrenaline (uptake2) avidly transports 1-methyl-4-phenylpyridinium (MPP+)

Summary The corticosterone-sensitive extraneuronal transport mechanism for noradrenaline (uptake₂) removes the neurotransmitter from the extracellular space. Recently, an experimental model for uptake₂ has been introduced which is based on tissue culture techniques (human Caki-1 cells). The present study describes some properties of uptake₂ in Caki-1 cells and introduces a new substrate, i.e., 1-methyl-4-phenylpyridinium (MPP⁺).Experiments on Caki-1 cells disclosed disadvantages of tritiated noradrenaline as substrate for the investigation of uptake₂. The initial rate of ³H-noradrenaline transport k_in = 0.58 l/(mg protein · min)] was low compared with other cellular transport systems and intracellular noradrenaline was subject to rapid metabolism (k_{O-methylation} = 0.54 min^–1). The neurotoxin MPP⁺ was found to be a good substrate of uptake₂. Initial rates of specific ³H-MPP⁺ transport into Caki-1 cells were saturable, the K_m being 24 mol/l and the V_max being 420 pmol/(mg protein · min). The rate constant of specific inward transport was 34 times higher 19.6 mol/l (mg protein · min)] than that of ³H-noradrenaline. The ratio specific over non-specific transport was considerably higher for ³H-MPP⁺ (12.6) than for ³H-noradrenaline (3.0). ³H-MPP⁺ transport into Caki-1 cells was inhibited by various inhibitors of uptake₂. The highly significant positive correlation (p < 0.001, r = 0.986, n = 7) between the IC₅₀'s for the inhibition of the transport of ³H-noradrenaline and ³H-MPP⁺, respectively, proves the hypothesis that MPP⁺ enters Caki-1 cells via uptake₂. ³H-MPP⁺ is taken up via uptake₂ not only by Caki-1 cells but also by the isolated perfused rat heart which is another established model of uptake₂.Tritiated MPP⁺ is a new and convenient tool for the investigation of uptake₂. The rate constant for inward transport, the factor of accumulation and the ratio specific over non-specific transport are considerably higher for ³H-MPP⁺ than for ³H-noradrenaline. In uptake studies with ³H-MPP⁺ inhibition of intracellular noradrenaline-metabolizing enzymes is not necessary. In tissues and tissue cultures which possess fewer uptake₂ carriers than Caki-1 cells or the rat heart, the identification and characterization of uptake₂ can be expected to be greatly facilitated by the use of ³H-MPP⁺.Supported by the Deutsche Forschungsgemeinschaft (SFB 176) Send offprint requests to H. Russ at the above address