Determination of Acetylamantadine by γ-Cyclodextrin-Assisted α-HL Nanopore for Potential Cancer Prediagnosis.
Yun-Dong YinLei YangXi-Tong SongJun HuFang-Fang ChenMing XuZhi-Yuan GuPublished in: Analytical chemistry (2024)
The high expression of Spermidine/spermine N 1 -acetyltransferase (SSAT-1) is an important indicator in early cancer diagnosis. Here, we developed a nanopore-based methodology with γ-cyclodextrin as an adaptor to detect and quantify acetylamantadine, the specific SSAT-1-catalyzed product from amantadine, to accordingly reflect the activity of SSAT-1. We employ γ-cyclodextrin and report that amantadine cannot cause any secondary signals in γ-cyclodextrin-assisted α-HL nanopore, while its acetylation product, acetylamantadine, does. This allows γ-cyclodextrin to practically detect acetylamantadine in the interference of excessive amantadine, superior to the previously reported β-cyclodextrin. The quantification of acetylamantadine was not interfered with even a 50-fold amantadine and displayed no interference in artificial urine sample analysis, which indicates the good feasibility of this nanopore-based methodology in painless cancer prediagnosis. In addition, the discrimination mechanism is also explored by 2-D nuclear magnetic resonance (NMR) and nanopore experiments with a series of adamantane derivatives with different hydrophilic and hydrophobic groups. We found that both the hydrophobic region matching effect and hydrophilic interactions play a synergistic effect in forming a host-guest complex to further generate the characteristic signals, which may provide insights for the subsequent design and study of drug-cyclodextrin complexes.
Keyphrases
- ionic liquid
- single molecule
- capillary electrophoresis
- magnetic resonance
- papillary thyroid
- solid state
- squamous cell
- solid phase extraction
- poor prognosis
- lymph node metastasis
- emergency department
- high resolution
- childhood cancer
- room temperature
- physical activity
- computed tomography
- binding protein
- climate change
- molecularly imprinted
- water soluble
- electronic health record
- simultaneous determination
- data analysis