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Biotinylated Theranostic Amphiphilic Polyurethane for Targeted Drug Delivery

Sagar Bag, Mandip Pratham Gadpayle, Desoshree Ghosh, Sankar Maiti, Priyadarsi De

2024Biomacromolecules21 citationsDOI

Abstract

In the area of drug delivery aided by stimuli-responsive polymers, the biodegradability of nanocarriers is one of the major challenges that needs to be addressed with the utmost sincerity. Herein, a hydrogen sulfide (H 2 S) responsive hydrophobic dansyl-based trigger molecule is custom designed and successfully incorporated into the water-soluble polyurethane backbone, which is made of esterase enzyme susceptible urethane bonds. The amphiphilic polyurethanes, PUx (x = 2 and 3) with a biotin chain end, formed self-assembled nanoaggregates. A hemolysis and cytotoxicity profile of doxorubicin (DOX)-loaded biotinylated PU3 nanocarriers revealed that it is nonhemolytic and has excellent selectivity toward HeLa cells (biotin receptor-positive cell lines) causing ∼60% cell death while maintaining almost 100% cell viability for HEK 293T cells (biotin receptor-negative cell lines). Furthermore, better cellular internalization of DOX-loaded fluorescent nanocarriers in HeLa cells than in HEK 293T cells confirmed receptor-mediated endocytosis. Thus, this work ensures that the synthesized polymers serve as biodegradable nanocarriers for anticancer therapeutics.

Topics & Concepts

NanocarriersHeLaHEK 293 cellsAmphiphileChemistryBiotinylationCytotoxicityDrug deliveryBiophysicsBiochemistryPolymerCellReceptorOrganic chemistryIn vitroCopolymerBiologyLuminescence and Fluorescent MaterialsDendrimers and Hyperbranched PolymersCovalent Organic Framework Applications
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