Abstract

Abstract— The rates of brain tyrosine and tryptophan hydroxylation, estimated in vivo from the accumulation of DOPA and 5‐hydroxytryptophan after the administration of a decarboxylase inhibitor, appear dependent on the availability of oxygen as a substrate. During two types of physical stress, electroshock and curare‐immobilization, the rate of brain tyrosine hydroxylation was greater than in unstressed controls and was not significantly decreased when the stresssed animals were made hypoxic. The loss of oxygen dependence by brain tyrosine hydroxylation during stress was observed in several brain regions and was not associated with alterations in the concentrations of brain tyrosine. tryptophan, serotonin, dopamine or norepinephrine. The rate of brain tryptophan hydroxylation was not affected by stress and remained oxygen dependent. The increase in catecholamine synthesis during stress appears to be the result of increased catecholaminergic nerve impulse flow. These experiments are consistent with the hypothesis that during neuronal stimulation an allosteric change in tyrosine hydroxylase increases the affinity of the enzyme for oxygen allowing greater catecholamine synthesis despite limiting concentrations of this substrate.

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