Background: Existing liquid biopsy assays for protein biomarkers of cancer are mostly based on antibodies (Ab) contributing unfavorably to their high cost. Easy to express and modify in vitro, nanobodies may be a cost-effective alternative to Ab.
Results: We show that serum HER-2/neu, a biomarker and target of aggressive HER-2/neu(+) cancers, can be accurately detected in a 1.2 h electrochemical cellulase-linked sandwich nanobody/aptamer assay on magnetic beads. Using a single nanobody receptor, 2Rs15d or 2Rb17c, reduces immunoassay's sensitivity by 35%-26 %. A combination of two nanobodies as a duo-receptor recovers the sensitivity of the enzyme-linked nanobody/aptamer-sorbent assay (ELNASA) to 11.9 ± 2.8 μC fM-1, due to the avidity effects making the nanobodies-duo binding properties comparable to those of Ab. Down to 0.1 fM HER-2/neu was detected by ELNASA in serum samples, with no interference from other blood-circulating proteins. In a 30 healthy-volunteers trial, ELNASA more accurately than optical ELISA assayed serum HER-2/neu.
Significance: ELNASA performance rivals that of ELISA, yet estimated to be at least 200 times cheaper, due to the lower cost of nanobodies production, and may be better suited for routine clinical analysis of HER-2/neu, particularly, in low- and middle-income settings with limited resources. The ELNASA approach is generic and may be adapted for specific and ultrasensitive analysis of other blood-circulating proteins.
Keywords: Cancer diagnostics; Electrochemical enzyme-linked immuno-sorbent assay (e-ELISA); HER-2/Neu; Nanobody; Serum liquid biopsy.
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