Polydopamine-mediated photothermal effect enables a new method for point-of-care testing of biothiols using a portable photothermal sensor

Abstract

Abnormal levels of biothiols such as cysteine (Cys), homocysteine (Hcy) and glutathione (GSH) are associated with many pathological diseases. The demand for bulky and costly apparatuses represents a big impediment for point-of-care testing of biothiols. Herein, we developed a novel photothermal sensor for biothiols based on the formation of polydopamine nanoparticles (PDA NPs) using a thermometer as readout. A zeolitic imidazolate framework (ZIF-67) was first fabricated through a facile one-pot strategy. Then dopamine (DA) was immediately polymerized into PDA NPs with excellent photothermal effects (PETs) in the presence of the ZIF-67. Biothiols could disintegrate ZIF-67 by substituting ligands, causing the reaction between biothiols and cobalt ions to form complexes, and release 2-methylimidazole (2MIM) that can slowly oxidize DA, thereby "weakening" the PETs signal, which enabled us to convert biological signals into temperature signals. Therefore, the quantitative detection of Cys, Hcy and GSH can be achieved by recording temperature changes, with detection limits as low as 0.158 μM, 0.181 μM and 0.207 μM, respectively. Furthermore, the photothermal sensor has been applied in detection of biothiols in fetal bovine serum with satisfactory recovery rates, correlating well with the results by standard Ellman method, signifying its promising potential in integrated biological detection system.