Localizable fluorescent metal ion indicators with tunable colors

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Abstract

Elucidating the role of metal ion homeostasis in physiological and pathological processes requires detection tools with high sensitivity and selectivity, spectral versatility, and precise subcellular localization. Here, we introduce a modular strategy for generating fluorescent metal ion indicators which are comprised of a sulfonamide-functionalized chelator, a rhodamine derivative and a ligand for bioconjugation to self-labeling proteins. With a concise three-step synthesis, the design allows tuning of both the emission color and ligand specificity of the resulting indicators. Specifically, we developed a family of bright, color-tunable potassium indicators which can be selectively coupled to intra- or extracellular HaloTag and SNAP-tag fusion proteins. The increase in fluorescence upon binding to HaloTag or SNAP-tag fluorogenicity enabled wash-free live-cell imaging. The localized potassium indicators enabled the detection of dynamic potassium efflux in rat hippocampal neurons upon glutamate stimulation. Our work thus establishes a versatile platform for the generation of localizable fluorescent metal ion indicators and opens up new avenues for live-cell potassium sensing.

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europepmc
last seen: 2026-05-20T01:45:00.602351+00:00