| Literature DB >> 34748307 |
Badrul Alam Bony1, Aria W Tarudji1, Hunter A Miller1, Saiprasad Gowrikumar2, Sourav Roy3, Evan T Curtis1, Connor C Gee1, Alex Vecchio3,4, Punita Dhawan2,5,6, Forrest M Kievit1.
Abstract
Aging-induced alterations to the blood-brain barrier (BBB) are increasingly being seen as a primary event in chronic progressive neurological disorders that lead to cognitive decline. With the goal of increasing delivery into the brain in hopes of effectively treating these diseases, a large focus has been placed on developing BBB permeable materials. However, these strategies have suffered from a lack of specificity toward regions of disease progression. Here, we report on the development of a nanoparticle (C1C2-NP) that targets regions of increased claudin-1 expression that reduces BBB integrity. Using dynamic contrast enhanced magnetic resonance imaging, we find that C1C2-NP accumulation and retention is significantly increased in brains from 12 month-old mice as compared to nontargeted NPs and brains from 2 month-old mice. Furthermore, we find C1C2-NP accumulation in brain endothelial cells with high claudin-1 expression, suggesting target-specific binding of the NPs, which was validated through fluorescence imaging, in vitro testing, and biophysical analyses. Our results further suggest a role of claudin-1 in reducing BBB integrity during aging and show altered expression of claudin-1 can be actively targeted with NPs. These findings could help develop strategies for longitudinal monitoring of tight junction protein expression changes during aging as well as be used as a delivery strategy for site-specific delivery of therapeutics at these early stages of disease development.Entities:
Keywords: C1C2; blood−brain barrier; fluorescence imaging; magnetic resonance imaging; nanoparticles; tight junctions
Year: 2021 PMID: 34748307 PMCID: PMC9079187 DOI: 10.1021/acsnano.1c08432
Source DB: PubMed Journal: ACS Nano ISSN: 1936-0851 Impact factor: 18.027