Qualifying P-glycoprotein in drug-resistant ovarian cancer cells: a dual-mode aptamer probe approach.
Chaobin PangHeng XuJichao XuLei ZhangJinhua WangSu JingPublished in: The Analyst (2024)
Drug resistance presents a significant obstacle in treating human ovarian cancer. The development of effective methods for detecting drug-resistant cancer cells is pivotal for tailoring personalized therapies and prognostic assessments. In this investigation, we introduce a dual-mode detection technique employing a fluorogenic aptamer probe for the qualification of P-glycoprotein (P-gp) in drug-resistant ovarian cancer cells. The probe, initially in an "off" state due to the proximity of a quencher to the fluorophore, exhibits increased fluorescence intensity upon binding with the target. The fluorescence enhancement shows a linear correlation with both the concentration of P-gp and the presence of P-gp in drug-resistant ovarian cancer cells. This correlation is quantifiable, with detection limits of 1.56 nM and 110 cells per mL. In an alternate mode, the optimized fluorophores, attached to the aptamer, form larger complexes upon binding to the target protein, which diminishes the rotation speed, thereby augmenting fluorescence polarization. The alteration in fluorescence polarization enables the quantitative analysis of P-gp in the cells, ranging from 100 to 1500 cells per milliliter, with a detection limit of 40 cells per mL. Gene expression analyses, protein expression studies, and immunofluorescence imaging further validated the reliability of our aptamer-based probe for its specificity towards P-gp in drug-resistant cancer cells. Our findings underscore that the dual-mode detection approach promises to enhance the diagnosis and treatment of multidrug-resistant ovarian cancer.
Keyphrases
- drug resistant
- multidrug resistant
- acinetobacter baumannii
- induced apoptosis
- label free
- gene expression
- cell cycle arrest
- gram negative
- gold nanoparticles
- klebsiella pneumoniae
- loop mediated isothermal amplification
- living cells
- single molecule
- dna methylation
- endothelial cells
- oxidative stress
- photodynamic therapy
- signaling pathway
- magnetic nanoparticles
- pseudomonas aeruginosa
- cell proliferation
- fluorescent probe
- transcription factor
- amino acid
- dna binding
- protein protein