textjournal article
Design, Synthesis and Biological Evaluation of Glutathione Peptidomimetics as Components of Anti-Parkinson Prodrugs
Abstract
Plethoras of CNS-active drugs fail to effect their pharmacologic response due to their in vivo inability to cross the blood−brain barrier (BBB). The classical prodrug approach to overcome this frailty involves lipophilic derivatives of the polar drug, but we herein report a novel approach by which endogenous transporters at BBB are exploited for brain drug delivery. The crucial role played by glutathione in pathogenesis of Parkinson’s and the presence of its influx transporters at the basolateral membrane of BBB served as the basis for our anti-Parkinson prodrug design strategy. A metabolically stable analogue of glutathione is used as a carrier for delivery of dopamine and adamantamine. An account of successful syntheses of these prodrugs along with their transport characteristics and stability determination is discussed- Text
- Journal contribution
- Biochemistry
- Medicine
- Genetics
- Neuroscience
- Physiology
- Pharmacology
- Sociology
- Mental Health
- Information Systems not elsewhere classified
- influx transporters
- vivo inability
- BBB
- Biological Evaluation
- basolateral membrane
- glutathione
- brain drug delivery
- transport characteristics
- pharmacologic response
- stability determination
- Glutathione Peptidomimetics
- novel approach
- prodrug approach
- lipophilic derivatives
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Last time updated on 16/03/2018
This paper was published in The Francis Crick Institute.
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