Expanding Transition Metal-Mediated Bioorthogonal Decaging to Include C–C Bond Cleavage Reactions

The ability to control the activation of prodrugs by transition metals has been shown to have great potential for controlled drug release in cancer cells. However, the strategies developed so far promote the cleavage of C–O or C–N bonds, which limits the scope of drugs to only those that present ami...

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Veröffentlicht in:Journal of the American Chemical Society 2023-05, Vol.145 (19), p.10790-10799
Hauptverfasser: Dal Forno, Gean M., Latocheski, Eloah, Beatriz Machado, Ana, Becher, Julie, Dunsmore, Lavinia, St. John, Albert L., Oliveira, Bruno L., Navo, Claudio D., Jiménez-Osés, Gonzalo, Fior, Rita, Domingos, Josiel B., Bernardes, Gonçalo J. L.
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Sprache:eng
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Zusammenfassung:The ability to control the activation of prodrugs by transition metals has been shown to have great potential for controlled drug release in cancer cells. However, the strategies developed so far promote the cleavage of C–O or C–N bonds, which limits the scope of drugs to only those that present amino or hydroxyl groups. Here, we report the decaging of an ortho-quinone prodrug, a propargylated β-lapachone derivative, through a palladium-mediated C–C bond cleavage. The reaction’s kinetic and mechanistic behavior was studied under biological conditions along with computer modeling. The results indicate that palladium (II) is the active species for the depropargylation reaction, activating the triple bond for nucleophilic attack by a water molecule before the C–C bond cleavage takes place. Palladium iodide nanoparticles were found to efficiently trigger the C–C bond cleavage reaction under biocompatible conditions. In drug activation assays in cells, the protected analogue of β-lapachone was activated by nontoxic amounts of nanoparticles, which restored drug toxicity. The palladium-mediated ortho-quinone prodrug activation was further demonstrated in zebrafish tumor xenografts, which resulted in a significant anti-tumoral effect. This work expands the transition-metal-mediated bioorthogonal decaging toolbox to include cleavage of C–C bonds and payloads that were previously not accessible by conventional strategies.
ISSN:0002-7863
1520-5126
DOI:10.1021/jacs.3c01960