Label-free optical detection of calcium ion influx in cell-derived nanovesicles using a conical Au/PDMS biosensor

Authors
Kwak, JisungKim, WoochulCho, HyerimHan, JiyunSim, Sang JunSong, Hyun GyuPak, YusinSong, Hyun Seok
Issue Date
2024-09
Publisher
Royal Society of Chemistry
Citation
Lab on a Chip, v.24, no.17, pp.4138 - 4146
Abstract
Ion channels, which are key to physiological regulation and drug discovery, control ion flux across membranes, and their dysregulation leads to various diseases. Ca2+ monitoring is crucial for cellular signaling when performing Ca-based assays in ion channel research; these assays are widely utilized in both academic and pharmaceutical contexts for drug screening and pharmacological profiling. However, existing detection methods are limited by slow detection speeds, low throughput, complex processes, and low analyte viability. In this study, we developed a label-free optical biosensing method using a conical Au/polydimethylsiloxane platform tailored to detect Ca2+ influx in A549-originated nanovesicles facilitated by the transient receptor potential ankyrin 1 (TRPA1) channel. Nanovesicles expressing cellular signaling components mimic TRPA1 signal transduction in cell membranes and improve analyte viability. The conical Au/polydimethylsiloxane sensor converted Ca2+ influx events induced by specific agonist exposure into noticeable changes in relative transmittance under visible light. The optical transmittance change accompanying Ca2+ influx resulted in an enhanced sensing response, high accuracy and reliability, and rapid detection (similar to 5 s) without immobilization or ligand treatments. In the underlying sensing mechanism, morphological variations in nanovesicles, which depend on Ca2+ influx, induce a considerable light scattering change at an interface between the nanovesicle and Au, revealed by optical simulation. This study provides a foundation for developing biosensors based on light-matter interactions. These sensors are simple and cost-effective with superior performance and diverse functionality. Label-free optical detection of calcium ion influx using nanovesicles: this study presents a conical Au/PDMS biosensor for detecting Ca2+ influx in A549-derived nanovesicles, providing a method for monitoring ion channel activity.
Keywords
DRUG DISCOVERY; CHANNELS; PROBES; TRPA1
ISSN
1473-0197
URI
https://pubs.kist.re.kr/handle/201004/150381
DOI
10.1039/d4lc00421c
Appears in Collections:
KIST Article > 2024
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