Gastrin 17 (G-17) is a major biomarker for the diagnosis of gastric cancer. As the serum concentrations of gastrin are low, highly sensitive detection methods are needed. Previous studies have shown that oriented immobilization of detection antibodies can improve the sensitivity of lateral flow immunoassay (LFIA) methods. Herein, the antibody binding capacity of four Fc-specific peptides reported in different studies was evaluated, and two peptides with better binding potency were further modified with cysteine or the peptide GAC at their C-terminus. The peptide FYWHCLDEGAC exhibited the highest antibody binding capacity and was applied to directly immobilize the anti-G-17 antibody on microspheres with carboxyl... More
Gastrin 17 (G-17) is a major biomarker for the diagnosis of gastric cancer. As the serum concentrations of gastrin are low, highly sensitive detection methods are needed. Previous studies have shown that oriented immobilization of detection antibodies can improve the sensitivity of lateral flow immunoassay (LFIA) methods. Herein, the antibody binding capacity of four Fc-specific peptides reported in different studies was evaluated, and two peptides with better binding potency were further modified with cysteine or the peptide GAC at their C-terminus. The peptide FYWHCLDEGAC exhibited the highest antibody binding capacity and was applied to directly immobilize the anti-G-17 antibody on microspheres with carboxyl-functionalized surfaces and europium-based time-resolved fluorescence. An LFIA method was developed to detect G-17 in human serum, and the limit of detection (LOD) of this method for G-17 was 0.08 pmol L-1, which was 10 times less than that of the nonoriented immobilization method. The working range of this method is 0.27 ∼ 600 pmol L-1, with a recovery rate of 85.2 % −106.7 % and a CV value less than 12.4 %. This method is easy to use, and the total detection process takes less than 20 min. The test results for the actual serum samples were consistent with the commercial kit results (R2 > 0.95), demonstrating that the method can be utilized for point-of-care testing of G-17. This approach to orientedly immobilize antibodies on nanomaterials can be used to develop sensitive LFIA methods for various molecules.
