Functional probes not only at the inner wall but also at the outer surface of nanochannel systems could be used for the recognition and detection of biotargets. Despite the advancements, the current detection mechanisms are still mainly based on the surface charge variation. We proposed a strategy of using the variation of wettability on the outer surface of nanochannels for detecting a tumor marker, herein, exemplifying matrix metalloproteinase-2 (MMP-2). The outer surface of the nanochannels were modified with amphipathic peptide probe consisting of hydrophilic unit (CRRRR), MMP-2 cleavage unit (PLGLAG), and hydrophobic unit (Fn). After recognition of MMP-2, due to the release of hydrophobic unit, the hydrophilicity of the outer surface was expected to increase, thus leading to the increase of ion current. Furthermore, the number (n) of phenylalanine (F) in the hydrophobic unit was modulated from 2, 4, to 6. By lengthening the hydrophobic unit, the limit of detection for MMP-2 detection could reach 1 ng/mL (when n = 6) and improve by 50-fold (to n = 2). This nanochannel system was utilized to successfully detect the MMP-2 secreted from cells and demonstrated that the expression of MMP-2 was related to the cell cycle and exhibited the highest level in G1/S phase. This study proved that in addition to the surface charge, wettability regulation could also be utilized as a variation factor to broaden the design strategy of a probe on OS to achieve the detection of biotargets.
Keywords: cell cycle; enzyme; nanochannels; peptide; wettability.