Study of the brain serotonergic system with labeled α‐methyl‐l‐tryptophan

Abstract

α‐Methyl‐l‐tryptophan (α‐MTrp) is an artificial amino acid and an analog of tryptophan (Trp), the precursor of the neurotransmitter serotonin (5‐HT). In this article we have summarized available data, which suggest that the measurement of the unidirectional uptake of α‐MTrp and its conversion to 5‐HT synthesis rates is a valid approach for the determination of brain 5‐HT synthesis rates. The main feature on which the model is based is the trapping of labeled α‐MTrp in brain tissue. An overview of opposing opinions, which suggest that there is a need for a metabolic conversion of tracer, is also presented and discussed critically. As with all biological modeling there is likely to be room for improvements of the proposed biological model. In addition, there are a limited number of clearly defined circumstances in which the method is confounded by the metabolism of labeled α‐MTrp via the kynurenine pathway. Nonetheless, a significant body of evidence suggests that labeled α‐MTrp is a useful tracer to study brain 5‐HT synthesis in most circumstances. Calculation of 5‐HT synthesis rates depends on the plasma‐free tryptophan concentration, which, according to the balance of arguments in the literature, is a more appropriate parameter than the total‐plasma tryptophan. The method, as proposed by us, can be used in conjunction with autoradiographic measurements in laboratory animals, and with positron emission tomography in large animals and humans. We review studies in animals looking at the normal control of 5‐HT synthesis and the way in which it is altered by drugs, as well as initial studies investigating healthy humans and patients with neuropsychiatric disorders.