Unravelling the lipocalin 2 interaction with aptamers: May rolling circle amplification improve their functional affinity?

Abstract

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.