# Visualizing the Invisible: Dual Click Imaging of Ruthenium-Based Photoactivated Chemotherapy Agents and Their DNA Synthesis Inhibition in Fixed Cancer Cells

**Authors:** Anja Busemann, Lisa Rieger, Rachael M. Cunningham, Sam C. Davidse, Irene Regeni, Ingrid Flaspohler, Claudia Schmidt, Xue-Quan Zhou, Vincent van Rixel, Maxime A. Siegler, Ingo Ott, Sylvia E. Le Dévédec, Hans-Achim Wagenknecht, Victoria J. DeRose, Sylvestre Bonnet

PMC · DOI: 10.1021/jacs.5c13249 · Journal of the American Chemical Society · 2025-11-05

## TL;DR

Scientists developed a way to track invisible ruthenium-based cancer drugs in cells using imaging techniques, showing they accumulate in specific cell parts and inhibit DNA replication.

## Contribution

A novel dual click imaging strategy was developed to visualize nonemissive ruthenium-based PACT agents and their DNA synthesis inhibition in fixed cancer cells.

## Key findings

- Alkyne-functionalized Ru-based PACT complexes showed increased cellular uptake and cytotoxicity against A549 cancer cells.
- Post-treatment fluorophore labeling revealed cytoplasmic accumulation of Ru complexes in lysosomes and Golgi apparatus after light activation.
- Dual click imaging demonstrated that complex 4 inhibits DNA replication in cancer cells.

## Abstract

Like many drugs, ruthenium-based photoactivated chemotherapy
(PACT)
complexes are hard to follow in cells due to their absence of emissive
properties. Here, two alkyne-functionalized Ru-based PACT compounds
with the formula [Ru­(HCC-tpy)­(N̂N)­(Hmte)]­(PF6)2 were synthesized, where HCC-tpy = 4′-ethynyl-2,2′:6′,2″-terpyridine,
N̂N = 3,3′-biisoquinoline (i-biq, [2]­(PF6)2) or di­(isoquinolin-3-yl)­amine (i-Hdiqa,
[4]­(PF6)2), and Hmte = 2-(methylthio)­ethanol.
Their challenging synthesis involved a protection–deprotection
strategy to avoid the reaction of the free alkyne group with the coordinatively
unsaturated ruthenium center. The thermal stability and photosubstitution
quantum yield (Φ[2] = 0.022 and Φ[4] = 0.080) of the PACT complexes were essentially
preserved upon alkyne functionalization. Interestingly, however, cellular
uptake was doubled after alkyne functionalization, resulting in increased
cytotoxicity against A549 cancer cells for both complexes in the dark
and after green light activation (EC50,light = 5 and 7
μM, respectively). To follow the complexes and see the effect
of light activation, post-treatment fluorophore labeling via copper-catalyzed
azide–alkyne cycloaddition was realized in fixed cells at 2
different time points, which allowed for imaging the otherwise invisible
molecules. The images showed that the Ru complexes accumulated in
the cytoplasm only after light irradiation and that they colocalized
with the lysosomes and the Golgi apparatus. Moreover, we combined
this approach with metabolic labeling of DNA, and showed by dual click
imaging that DNA replication was inhibited by complex 4. The strategy described herein, pioneered for nonemissive, photosubstitutionally
active ruthenium complexes, opens a new avenue for investigating the
selective attack of lung cancer cells by PACT.

## Linked entities

- **Chemicals:** ruthenium (PubChem CID 23950), doxorubicin (PubChem CID 31703), 2-(methylthio)ethanol (PubChem CID 78925), 3,3'-biisoquinoline (PubChem CID 4098883), di(isoquinolin-3-yl)amine (PubChem CID 144431690)
- **Diseases:** cancer (MONDO:0004992), lung cancer (MONDO:0005138)

## Full-text entities

- **Diseases:** cytotoxicity (MESH:D064420), Cancer (MESH:D009369), lung cancer (MESH:D008175)
- **Chemicals:** azide (MESH:D001386), alkyne (MESH:D000480), Ru (MESH:D012428), copper (MESH:D003300), 4'-ethynyl-2,2':6',2''-terpyridine (-)
- **Cell lines:** A549 — Homo sapiens (Human), Lung adenocarcinoma, Cancer cell line (CVCL_0023)

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12636004/full.md

## References

73 references — full list in the complete paper: https://tomesphere.com/paper/PMC12636004/full.md

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Source: https://tomesphere.com/paper/PMC12636004