Zinc Photocages with Improved Photophysical Properties and Cell Permeability Imparted by Ternary Complex Formation

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Abstract

Photocaged complexes have demonstrated efficacy as tools to control the availability of bioactive metals in cells to interrogate signaling pathways. We describe the synthesis of two new photocages, {bis[(2-pyridyl)methyl]amino}(9-oxo-2-xanthenyl)acetic acid (XDPAdeCage, 1 ) {bis[(2-pyridyl)methyl]amino}(m-nitrophenyl)acetic acid (DPAdeCage, 2 ), which utilize a 4-xanthone acetic acid and meta -nitrobenzyl chromophore respectively, to mediate a photodecarboxylation reaction. Both photocages strongly coordinate Zn 2+ and the binding equilibrium shifts significantly toward free Zn 2+ upon the decarboxylation of the chelator. XDPAdeCage photolyzes with quantum yield of 27% with 365 nm light, and binds Zn 2+ with 4.6 pM affinity, which decreases by over 4 orders of magnitude upon uncaging. A neutral form of [Zn(XDPAdeCage)] + can be generated in situ using the anionic bidentate ligand pyrithione, which imparts membrane impermeability to the ternary complex. Using fluorescent imaging, we have confirmed transport of Zn 2+ across lipophilic membranes; in addition, RT-PCR experiments demonstrate the photocaged complexes ability to perturb cellular processes after photolysis by showing a change in the expression levels of metallothionein and zinc transporter proteins.

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europepmc
last seen: 2026-05-19T01:45:01.086888+00:00