Issue 12, 2024

Interplay of chloride levels and palladium(ii)-catalyzed O-deallenylation bioorthogonal uncaging reactions

Abstract

The palladium-mediated uncaging reaction of allene substrates remains a promising yet often overlooked strategy in the realm of bioorthogonal chemistry. This method exhibits high kinetic rates, rivaling those of the widely employed allylic and propargylic protecting groups. In this study, we investigate into the mechanistic aspects of the C–O bond-cleavage deallenylation reaction, examining how chloride levels influence the kinetics when triggered by Pd(II) complexes. Focusing on the deallenylation of 1,2-allenyl protected 4-methylumbelliferone promoted by Allyl2Pd2Cl2, our findings reveal that reaction rates are higher in environments with lower chloride concentrations, mirroring intracellular conditions, compared to elevated chloride concentrations typical of extracellular conditions. Through kinetic and spectroscopic experiments, combined with DFT calculations, we uncover a detailed mechanism that identifies AllylPd(H2O)2 as the predominant active species. These insights provide the basis for the design of π-allylpalladium catalysts suited for selective uncaging within specific cellular environments, potentially enhancing targeted therapeutic applications.

Graphical abstract: Interplay of chloride levels and palladium(ii)-catalyzed O-deallenylation bioorthogonal uncaging reactions

Supplementary files

Article information

Article type
Edge Article
Submitted
29 Nov 2023
Accepted
15 Feb 2024
First published
16 Feb 2024
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2024,15, 4458-4465

Interplay of chloride levels and palladium(II)-catalyzed O-deallenylation bioorthogonal uncaging reactions

G. M. Dal Forno, E. Latocheski, C. D. Navo, B. L. Albuquerque, A. L. St John, F. Avenier, G. Jiménez-Osés and J. B. Domingos, Chem. Sci., 2024, 15, 4458 DOI: 10.1039/D3SC06408E

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