Blood brain barrier permeable gold nanocluster for targeted brain imaging and therapy: an in vitro and in vivo study.
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Date
2017-12
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Journal of Materials Chemistry
Abstract
Blood brain barrier (BBB) is a dynamic interface, comprising polarized endothelial cells, that separates
the brain from the circulatory system. The highly protective nature of this tight junction impairs
diagnosis and treatment of brain disorders. In this study, we designed a sub atomic size, near infrared
emitting, dual function glutathione gold cluster with high fluorescence yield to facilitate permeability
of BBB, for imaging applications and drug delivery. The gold cluster was then modified with Levodopa
(L-dopa), to utilize the large amino acid transporter 1 (LAT1) pathways to enhance brain entry. Uptake
and permeability of the nanoprobes were demonstrated using an established model of BBB, comprising
brain endothelial cells (bEnd.3). The uptake and the clearance of L-dopa modified cluster was faster than
the glutathione cluster. L-Dopa modified cluster supports the slow and sustained delivery of a model
drug, pilocarpine, to the brain. Results of in vivo imaging and drug release in normal mice hold promise
for considering the probe for early diagnosis of brain diseases, when the barrier is not disrupted, and for
subsequent drug treatment.
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Citation
Nair LV, Nair RV, Shenoy SJ, Thekkuveettil A, Jayasree RS. Blood brain barrier permeable gold nanocluster for targeted brain imaging and therapy: an in vitro and in vivo study. Journal of Materials Chemistry. 2017;(42): -8314-8321.