Frontiers in Clinical Drug Research - CNS and Neurological Disorders

Volume: 6

Development of A “Theranostic Nano-Bullet” for Tinnitus: A Systems Neuroscience Approach for Receptor Targeting, Molecular Imaging, and Drug Delivery

Author(s): Anthony T. Cacace, Aaron K. Apawu, Stephanie M. Curley, James Castracane, Magnus Bergkvist, Angela R. Dixon and Avril Genene Holt

Pp: 72-98 (27)

DOI: 10.2174/9781681086071118060005

* (Excluding Mailing and Handling)

Abstract

The time is right for the development and implementation of a powerful new method to treat tinnitus. The necessity for this advancement centers on the observation that over 50 million individuals are affected by this condition, ~3 million are seriously disabled, effective treatments remain elusive, and there is no cure. To address this formidable problem, we describe a theranostic nanoparticle-based drug-delivery platform to localize and treat tinnitus by attenuating hyperactive neural activity in regions of the brain affected by this condition. The driving force underlying this approach centers on the multi-functionality of nanoparticles (NPs). Specifically, their exterior surfaces can be decorated with multiple ligands designed to cross the bloodbrain- barrier (BBB), target specific receptors in brain regions responsible for tinnitusrelated hyperactivity, have the ability to encapsulate contrast agents so that tinnitusrelated neural activity can be spatially localized in the brain using magnetic resonance imaging (MRI), and have their central core loaded with a pharmacological agent, enabling a payload of drugs to be delivered to those regions of the brain affected by this condition. In theory, this approach will attenuate and/or eliminate tinnitus-related hyperactivity; hence, markedly reduce or remove the tinnitus percept from consciousness. To date, an ex vivo model and in vivo animal experiments suggest that capsid-based NPs are able to cross the BBB, which is an essential first step for this technology to succeed. Optimization of NP concentrations, loading therapeutic and imaging agents, and further exploring over expressed receptor targets for delivery to specific brain regions are currently underway.


Keywords: Blood-Brain-Barrier, Drug Delivery, Functional Magnetic Resonance Imaging, Low Density Lipoprotein Receptor, Magnetic Resonance Imaging, Manganese Enhanced Magnetic Resonance Imaging, Molecular Imaging, Nanoparticle, Nanotheranostics, Permanent Threshold Shift, Post-traumatic Stress Disorder, Receptor- Mediated Transcytosis, Receptor Targeting, Temporary Threshold Shift, Tinnitus, Traumatic-Brain Injury. Endothelial cells, Central nervous system, Functional magnetic resonance imaging, Mangafodipir, Messenger ribonucleic acid, N-methyl-D-aspartate 2D subunit, N-methyl-D-aspartate 2B subunit, Real-time polymerase chain reaction, TeslaScan, Transwell permeable inserts.

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