AimSerotonin is crucial for proper foetal development, and the placenta has been described as a ‘donor’ of serotonin for the embryo/foetus. However, in later stages of gestation the foetus produces its own serotonin from maternally‐derived tryptophan and placental supply is no longer needed. We propose a novel model of serotonin homeostasis in the term placenta with special focus on the protective role of organic cation transporter 3 (OCT3/SLC22A3).MethodsDually perfused rat term placenta was employed to quantify serotonin/tryptophan transport and metabolism. Placental membrane vesicles isolated from human term placenta were used to characterize serotonin transporters on both sides of the syncytiotrophoblast.ResultsWe obtained the first evidence that serotonin is massively taken up from the foetal circulation by OCT3. This uptake is concentration‐dependent and inhibitable by OCT3 blockers of endogenous (glucocorticoids) or exogenous (pharmaceuticals) origin. Population analyses in rat placenta revealed that foetal sex influences placental extraction of serotonin from foetal circulation. Negligible foetal serotonin levels were detected in maternal‐to‐foetal serotonin/tryptophan transport and metabolic studies.ConclusionWe demonstrate that OCT3, localized on the foetus‐facing membrane of syncytiotrophoblast, is an essential component of foeto‐placental homeostasis of serotonin. Together with serotonin degrading enzyme, monoamine oxidase‐A, this offers a protective mechanism against local vasoconstriction effects of serotonin in the placenta. However, this system may be compromised by OCT3 inhibitory molecules, such as glucocorticoids or antidepressants. Our findings open new avenues to explore previously unsuspected/unexplained complications during pregnancy including prenatal glucocorticoid excess and pharmacotherapeutic risks of treating pregnant women with OCT3 inhibitors.
Placental Tryptophan Metabolism During Gestation models are not suitable to study placental handling of tryptophan. Altogether, our data provide the first comprehensive evidence of changes in placental homeostasis of tryptophan and its metabolites as a function of gestational age, which is critical for proper placental function and fetal development.
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