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Characterization of Inositol Transporters as a Method for Drug Delivery to the Centra Nervous System

A challenge in the treatment of central nervous system (CNS) diseases is the transport of drug candidates into the brain. Inositol stereoisomers have show promise as therapeutic agents for CNS disorders. scyllo-Inositol was an effective prophylactic and therapeutic for Alzheimer’s disease (AD) in TgCRND8 mice, a model of AD. This suggests inositol stereoisomers have excellent CNS bioavailability. They enter the brain through inositol transporters, of which there are three: one hydrogen myo-inositol transporter (HMIT) and two sodium myo-inositol transporters (SMIT1, SMIT2). HYPOTHESIS: Given the high CNS bioavailability of inositol stereoisomers, it may be possible to use inositol transporters to shuttle other compounds into the CNS. OBJECTIVES: 1. To confirm the CNS bioavailability of the two main inositol stereoisomers, myo- and scyllo-inositol, in both TgCRND8 and wild-type mice. 2. To examine inositol transporter expression in the brains, as a function of time and disease pathology, in both groups. 3. To evaluate the flexibility of the inositol transporters for transporting compounds by determining the substrate structural features required for active transport. RESULTS: myo-Inositol and scyllo-inositol accumulated in the brain following oral administration. Disease pathology did not alter baseline inositol levels or uptake. Brain subregional transporter expression was unaltered as a function of age or disease pathology. In vitro cell culture experiments found HMIT inactive and therefore not a contender for drug transport. In contrast SMIT1 and SMIT2 were both active and competitive transport assays, revealed distinct criteria for active transport through each system. However, both were stringent in the substitutions to the structure of myo-inositol possible to maintain active transport. CONCLUSION: Active transport through the inositol transporters is very sensitive to changes in the structure of myo-inositol and only conservative changes are possible. Therefore, these transporters would not make effective shuttling systems for drug transport into the brain.

Identiferoai:union.ndltd.org:TORONTO/oai:tspace.library.utoronto.ca:1807/32934
Date05 September 2012
CreatorsFenili, Daniela
ContributorsMcLaurin, JoAnne
Source SetsUniversity of Toronto
Languageen_ca
Detected LanguageEnglish
TypeThesis

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