Journal article
S. Ferrara, T. Scanlan
Journal of medicinal chemistry, 2020
Journal of medicinal chemistry, 2020
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APA
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Ferrara, S., & Scanlan, T. (2020). A CNS-targeting prodrug strategy for nuclear receptor modulators. Journal of Medicinal Chemistry.
Chicago/Turabian
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Ferrara, S., and T. Scanlan. “A CNS-Targeting Prodrug Strategy for Nuclear Receptor Modulators.” Journal of medicinal chemistry (2020).
MLA
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Ferrara, S., and T. Scanlan. “A CNS-Targeting Prodrug Strategy for Nuclear Receptor Modulators.” Journal of Medicinal Chemistry, 2020.
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@article{s2020a,
title = {A CNS-targeting prodrug strategy for nuclear receptor modulators.},
year = {2020},
journal = {Journal of medicinal chemistry},
author = {Ferrara, S. and Scanlan, T.}
}
Abstract
The blood-brain barrier is a major impediment for targeted central nervous system (CNS) therapeutics, especially with carboxylic acid-containing drugs. Nuclear receptors modulators, which often feature carboxylic acid motifs for target engagement, have emerged as a class of potentially powerful therapeutics for neurodegenerative CNS diseases. Herein is described a prodrug strategy which directs the biodistribution of parent drug nuclear receptor modulators into the CNS while masking them as functional receptor ligands in the periphery. This prodrug strategy targets a specific amidase, fatty-acid amide hydrolase (FAAH), an enzyme with enriched expression in the CNS. Our results demonstrate that this prodrug strategy can be generalized to a variety of carboxylic acid-containing drug structures that satisfy the structural requirements of blood-brain barrier diffusion and FAAH substrate recognition.
