A Surface-Enhanced Raman Scattering and Fluorescence Seesaw Nanosensor for the Detection of Cathepsin B Activity in Breast Cancer Cells.
1/5 보강
Cathepsin B (CTSB) plays a key role in several processes that promote breast cancer progression, making its activity detection crucial for cancer analysis.
APA
Zhu D, Chen G, et al. (2026). A Surface-Enhanced Raman Scattering and Fluorescence Seesaw Nanosensor for the Detection of Cathepsin B Activity in Breast Cancer Cells.. The journal of physical chemistry. B, 130(12), 3322-3331. https://doi.org/10.1021/acs.jpcb.5c07512
MLA
Zhu D, et al.. "A Surface-Enhanced Raman Scattering and Fluorescence Seesaw Nanosensor for the Detection of Cathepsin B Activity in Breast Cancer Cells.." The journal of physical chemistry. B, vol. 130, no. 12, 2026, pp. 3322-3331.
PMID
41841441 ↗
Abstract 한글 요약
Cathepsin B (CTSB) plays a key role in several processes that promote breast cancer progression, making its activity detection crucial for cancer analysis. In this study, we developed a surface-enhanced Raman scattering (SERS) and fluorescence seesaw nanosensor for probing CTSB activity in breast cancer cells. The nanosensor, termed Au-pep-TAMRA, was fabricated by conjugating carboxytetramethylrhodamine (TAMRA)-labeled peptide substrates (pep-TAMRA) to gold nanoparticles (Au NPs). The peptide substrates served dual functions: (1) as recognition units specifically cleavable by CTSB and (2) as linkers bridging the plasmonic Au NPs and TAMRA signal molecules. Upon CTSB-mediated proteolytic cleavage, the altered distance between Au NPs and TAMRA generated inversely correlated signal changes in the SERS (reduction) and fluorescence (recovery) channels. This dual-mode nanosensor exhibited an expanded detection range of 5-200 ng/mL (compared to the single-mode detection) while achieving a low limit of detection of 1.16 ng/mL. Cell experiment validated the nanosensor's capacity to precisely determine CTSB activity in MDA-MB-231 cell lysates. The SERS-fluorescence switchable nanosensor demonstrates potential for advancing accurate diagnosis and personalized therapeutic strategies for breast cancer in clinical settings.
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