We
present a sensitive and low-cost immunoassay, based on a customized
open-source quartz crystal microbalance coupled with graphene biointerface
sensors (G-QCM), to quantify antibodies in undiluted patient serum.
We demonstrate its efficacy for a specific antibody against the phospholipase
A2 receptor (anti-PLA2R), which is a biomarker in primary membranous
nephropathy. A novel graphene–protein biointerface was constructed
by adsorbing a low concentration of denatured bovine serum albumin
(dBSA) on the reduced graphene oxide (rGO) sensor surface. The dBSA
film prevents the denaturation of the protein receptor on the rGO
surface and serves as the cross-linker for immobilization of the receptor
for anti-PLA2R antibodies on the surface. The detection limit and
selectivity of this G-QCM biosensor was compared with a commercial
QCM system. The G-QCM immunoassay exhibited good specificity and high
sensitivity toward the target, with an order of magnitude better detection
limit (of 100 ng/mL) compared to the commercial system, at a fraction
of the cost and with considerable time saving. The results obtained
from patient sera compared favorably with those from enzyme-linked
immunosorbent assay, validating the feasibility of use in clinical
applications. The multifunctional dBSA-rGO platform provides a promising
biofunctionalization method for universal immunoassay and biosensors.
With the advantages of inexpensive, rapid, and sensitive detection,
the G-QCM sensor and instrument form an effective autoimmune disease
screening tool.
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