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In Vivo Targeting Using Arylboronate/Nopoldiol Click Conjugation

Bioorthogonal click reactions yielding stable and irreversible adducts are in high demand for in vivo applications, including in biomolecular labeling, diagnostic imaging, and drug delivery. Previously, we reported a novel bioorthogonal “click” reaction based on the coupling of ortho-acetyl arylboro...

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Published in:	Bioconjugate chemistry 2020-10, Vol.31 (10), p.2288-2292
Main Authors:	Palvai, Sandeep, Bhangu, Jasmine, Akgun, Burcin, Moody, Christopher T, Hall, Dennis G, Brudno, Yevgeny
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Language:	English
Subjects:	Adducts Amines Conjugation Coupling (molecular) Crystallography Diagnostic software Diagnostic systems Drug delivery Drug delivery systems Esters Extracellular matrix In vivo methods and tests Nitrogen NMR Nuclear magnetic resonance Structural analysis X-ray crystallography
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creator	Palvai, Sandeep Bhangu, Jasmine Akgun, Burcin Moody, Christopher T Hall, Dennis G Brudno, Yevgeny
description	Bioorthogonal click reactions yielding stable and irreversible adducts are in high demand for in vivo applications, including in biomolecular labeling, diagnostic imaging, and drug delivery. Previously, we reported a novel bioorthogonal “click” reaction based on the coupling of ortho-acetyl arylboronates and thiosemicarbazide-functionalized nopoldiol. We now report that a detailed structural analysis of the arylboronate/nopoldiol adduct by X-ray crystallography and 11B NMR reveals that the bioorthogonal reactants form, unexpectedly, a tetracyclic adduct through the cyclization of the distal nitrogen into the semithiocarbazone leading to a strong B–N dative bond and two new 5-membered rings. The cyclization adduct, which protects the boronate unit against hydrolytic breakdown, sheds light on the irreversible nature of this polycondensation. The potential of this reaction to work in a live animal setting was studied through in vivo capture of fluorescently labeled molecules in vivo. Arylboronates were introduced into tissues through intradermal injection of their activated NHS esters, which react with amines in the extracellular matrix. Fluorescently labeled nopoldiol molecules were administered systemically and were efficiently captured by the arylboronic acids in a location-specific manner. Taken together, these in vivo proof-of-concept studies establish arylboronate/nopoldiol bioorthogonal chemistry as a candidate for wide array of applications in chemical biology and drug delivery.
doi_str_mv	10.1021/acs.bioconjchem.0c00453
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subjects	Adducts Amines Conjugation Coupling (molecular) Crystallography Diagnostic software Diagnostic systems Drug delivery Drug delivery systems Esters Extracellular matrix In vivo methods and tests Nitrogen NMR Nuclear magnetic resonance Structural analysis X-ray crystallography
title	In Vivo Targeting Using Arylboronate/Nopoldiol Click Conjugation
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