The specificity and affinity characteristics of antibodies
make them excellent probes in biosensor applications.
Unfortunately, their large size, unstable behavior, and
random immobilization properties create numerous problems. The single-domain antigen-binding fragment derived
from heavy-chain antibodies of camelids (termed VHH)
offers special advantages in terms of size, stability, and
ease of generating different antibody constructs. In this
study, we show the potential of those VHHs in sensing
human prostate-specific antigen (hPSA) by SPR technology. Different VHH constructs were immobilized onto
commercial and custom-built sensor surfaces by metal
chelation, biotin−streptavidin interaction, or covalent
coupling. The detection of subnanogram per milliliter
hPSA concentrations could be attained on a covalently
coupled three-dimensional dextran surface. Moreover, the
ratio of different hPSA isoform concentrations could be
assessed via a sandwich assay and resulted in the detection of clinically significant antigen concentrations within
15 min. In addition, for the first time, the intrinsic protein
stability is presented as an important probe design factor,
since our results reveal that higher intrinsic stability offers
higher resistance to harsh regeneration conditions. In
conclusion, we present VHHs as a novel class of biosensor
probes rivaling conventional antibodies and their derived
antibody fragments.