Salomón Z. Langer scite author profile

The binding of radiolabelled cocaine, an inhibitor of dopamine uptake, to the post-mortem human putamen was studied and compared to that in the rat striatum. Saturation analysis of [3H]cocaine binding to the human putamen revealed the presence of a high affinity component of binding with a Kd of 0.21 mumol/l and a Bmax of 1.47 pmol/mg protein. In addition a low affinity component (Kd = 26.4 mumol/l) was demonstrated, having a Bmax of 42.2 pmol/mg protein. Also in the rat striatum [3H]cocaine binding was both of high affinity (Kd = 0.36 mumol/l, Bmax = 5.56 pmol/mg protein) and low affinity (Kd = 25.9 mumol/l, Bmax = 35.6 pmol/mg protein). A pharmacological characterisation of high affinity [3H]cocaine binding to rat striatal membranes clearly indicates an association with the neuronal dopamine transporter. The IC50 values of 8 selected drugs for inhibition of [3H]cocaine binding in the rat striatum were highly significantly correlated with their potency to inhibit [3H]dopamine uptake into slices of the rat striatum. [3H]Cocaine binding was stereospecifically inhibited by (+)nomifensine and (+)diclofensine which were 50-80-fold more active than their respective (-)isomers. Drugs with dopamine releasing activity were more potent at inhibiting [3H]dopamine uptake than at competing for the high affinity site of [3H]cocaine binding. A highly significant correlation was found between IC50 values for [3H]cocaine binding in the rat striatum and the human putamen. Further evidence in support of an association of [3H]cocaine binding in the rat striatum with the dopamine transporter was obtained from lesion studies. Thus, intranigral 6-hydroxydopamine administration produced a marked (67%) decrease in striatal [3H]cocaine binding.(ABSTRACT TRUNCATED AT 250 WORDS)

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The metabolism of [³H]noradrenaline released by electrical stimulation from the isolated nictitating membrane of the cat and from the vas deferens of the rat

Langer¹

1970

The Journal of Physiology

181

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Characterization of [3H]paroxetine binding to rat cortical membranes

Habert

Graham

Tahroui

et al. 1985

European Journal of Pharmacology

264

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Tritiated Imipramine Binding Sites Are Decreased in Platelets of Untreated Depressed Patients

Briley

Langer

Raisman

et al. 1980

Science

433

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The high-affinity binding of triatiated imipramine to platelet membranes was compared in samples from 16 untreated depressed women and 21 age-matched controls of the same sex. The maximal binding in the depressed group was significantly lower than that of the controls, although the affinity constants were similar. These results suggest that binding of tritiated imipramine in human platelets may represent a biochemical index of depression, possibly reflecting similar changes in the brain.

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