Ion Channel Nano-Diagnostics for ER+ Breast Cancer

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Abstract

ABSTRACT Ion channels are pore-forming transmembrane proteins that allow ions to move down an electrochemical gradient and across the channel pore and regulate many cell functions. Among them, are the G-protein–gated inwardly-rectifying K+ channels 1 (GIRK1) that are ubiquitously expressed with major functions in the brain and heart. Interestingly, significantly higher GIRK1 expression has been found in estrogen receptor positive (ER+) breast cancer patients compared to patients with HER2+ tumors or normal patients, and that was statistically correlated with shorter survival times and metastatic potential. Herein, we report the preparation of ∼4 nm GAT1508 -coated poly(ethylene glycol) gold nanoparticle (PEGylated AuNP) biomarker for ER+ breast cancer cell screening through an optical microscope. A urea-based small molecule, GAT1508, with an N-methylpyrazole benzyl group on one side and a bromo-thiophene tail on the other side, has been shown to predominantly bind GIRK1 subunits and specifically activate GIRK1/2 channels. Two derivatives of GAT1508were synthesized and characterized: an ethylamine derivative (GAT1508-EA) with a chain extension from the benzyl ring, and a propylamine derivative (GAT1508-PA) with a chain extension from the pyrazole ring. Electrophysiology (TEVC and whole-cell patch-clump) experiments as well as fluorescence studies (Thallium assay) showed that only GAT1508-PA inhibited GIRK1/2-mediated K+ currents in transfected HEK293 GIRK1 cells. Docking studies showed strong binding for the propylamine GAT1508 derivative, both in the amine form (GAT1508-PA) as well as in the amide form (GAT1508-PA-EG2; coupled with PEG as in the AuNPs). GAT1508 -PEG-AuNPs ( GAT1508 -NPs) were synthesized subsequently with ∼65 wt% metal loading. UV-Vis studies revealed the presence of the conjugated ligand at 260 nm. Flow cytometry studies showed binding of Alexa 594-labeled GAT1508 -NPs in ER+ MCF-7 breast cancer cells with a strong interaction, while incubation of fixed MCF-7 cells with a GAT1508 -NP solution led to optical detection of ER+ breast cancer cells, without the need of fluorescent dyes and additional amplification steps. Detection was not feasible in MDA-MB-231 cells, a triple (-) breast cell line that does not express GIRK1. This is the first study, to our knowledge, that couples nanotechnology with small molecule drug design and electrophysiology to develop ion channel-tracing molecular probes for the detection/screening of ER+ breast cancer.

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