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Evolutionarily Conserved Roles For Blood-Brain Barrier Xenobiotic Transporters In Endogenous Steroid Partitioning And Behavior
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Evolutionarily Conserved Roles For Blood-Brain Barrier Xenobiotic Transporters In Endogenous Steroid Partitioning And Behavior

Samantha Hindle, Roeben Munji, Elena Dolghih, Garrett Gaskins, Souvinh Orng, Hiroshi Ishimoto, Allison Soung, Michael Desalvo, Toshihiro Kitamoto, Michael Keiser, …
bioRxiv: the preprint server for biology
Cold Spring Harbor Laboratory
04/29/2017
DOI: 10.1101/131698
url
https://doi.org/10.1101/131698View
Preprint (Author's original)This preprint has not been evaluated by subject experts through peer review. Preprints may undergo extensive changes and/or become peer-reviewed journal articles. Open Access

Abstract

Optimal brain function depends upon efficient control over the brain entry of blood components; this is provided by the blood-brain barrier (BBB). Curiously, some brain-impermeable drugs can still cause behavioral side effects. To investigate this phenomenon, we asked whether the promiscuous drug efflux transporter Mdr1 has dual functions in transporting drugs and endogenous molecules. If this is true, brain-impermeable drugs may cause behavioral side effects by affecting brain levels of endogenous molecules. Using computational, genetic and pharmacologic approaches across diverse organisms we demonstrate that BBB-localized efflux transporters are critical for regulating brain levels of endogenous steroids, and steroid-regulated behaviors (sleep in Drosophila and anxiety in mice). Furthermore, we show that Mdr1-interacting drugs are associated with anxiety-related behaviors in humans. We propose a general mechanism for common behavioral side effects of prescription drugs: pharmacologically challenging BBB efflux transporters disrupts brain levels of endogenous substrates, and implicates the BBB in behavioral regulation.

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