Cancer diagnosis based on serum biomarkers requires receptors of extreme sensitivity and selectivity. Tunability of aptamer selection makes them ideal for that challenge. However, aptamer characterization is a time-consuming task, not always thoroughly addressed, leading to suboptimal aptamer performance. In this work, we report on the affinity characterization and potential usage of two aptamers against a candidate cancer biomarker, the neutrophil gelatinase-associated lipocalin (NGAL). Electrochemical sandwich assays on Au electrodes and SPR experiments showed a restricted capture ability of one of the aptamers (LCN2-4) and a small detectability of the other (LCN2-2). Interestingly, a truncated version of the signaling aptamer LCN2-2 selectively binds to NGAL covalently linked to magnetic beads due to high local protein concentration. The functional affinity of this aptamer is enhanced by three-orders of magnitude using rolling circle amplification (RCA), completed in only 15 min, followed by hybridization with short complementary fluorescein-tag probes, enzyme labeling and chronoamperometric measurement. Microscale thermophoresis experiments show a poor affinity for the protein in solution, which urges the importance of a full and in-depth characterization of aptamers to be used as diagnostic reagents.
Keywords: Aptamer characterization; Electrochemical detection; Microscale thermophoresis; NGAL; Rolling circle amplification.
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