Enhancement of Tryptophan Uptake by Divalent Cations in the Absence of Sodium Ions

Nations were found to inhibit the uptake of L‐tryptophan into synaptosomes with a shallow dose‐response curve. Almost maximal inhibition was obtained with 10 mM‐Na + . The divalent cations Ca 2+ and Mg 2+ were shown to be responsible for the increased uptake of L‐tryptophan in the absence of Na + ions. Other divalent cations also promoted tryptophan uptake under this condition (Ca 2+ < Mg 2+ < Mn 2+ < Fe 2+ < Zn 2+ < Cu 2+ ). It was concluded that monovalent chelate complexes were responsible for this enhancing effect. The measured L‐tryptophan uptake was the net product of membrane bound and unbound tryptophan. Both bound and unbound tryptophan were increased in the presence of divalent cations. If no divalent cations were added to the incubation medium, Na + ions decreased the unbound tryptophan but were without effect on bound tryptophan. Under these circumstances D‐tryptophan had no effect on binding of the L‐isomer and affected the transport of 1.‐tryptophan only at very high does (100 x conc. L‐tryptophan). These results suggest that I ‐tryptophan binds to a stereospecific transport carrier located in the synaptosomal membrane and that Na + ions prevent the translocation of this carrier amino acid complex from the outer to the inner site of the neuronal membrane.