Wide-range quantification of human thyroid-stimulating hormone using gold-nanopatterned single-molecule sandwich immunoassay chip

Abstract

We performed wide-range quantification of human thyroid-stimulating hormone (hTSH) using a gold nano-patterned sandwich immunoassay chip. Objective-type total internal reflection fluorescence microscopy (TIRFM) was used to detect hTSH at the single-molecule level. A gold spot with a diameter of 100nm on a 10-mm square glass substrate was fabricated by electron beam nanolithography. When hTSH bound to antibodies conjugated to each 100-nm gold spot, there was an increase in the relative fluorescent intensity (RFI). The detection limit of this “TSH-nanoarray chip” was 360zM (equivalent to five molecules), which demonstrated that a TSH-nanoarray chip could be used for detection at the single-molecule level. A linear response was observed over a wide dynamic range (from 360zM to 36pM, R=0.9812) without a fluorescence quenching effect. A significant enhancement in the sensitivity (∼12,000-fold) was achieved with the 100-nm gold nano-patterned chip compared with results obtained using a traditional chemiluminescence immunoassay for the evaluation of TSH in human serum.