Abstract
An ideal single-photon (1P) or multiphoton fluorescent nanoprobe should combine a nanocrystal with the largest possible 1P or two-photon (2P) absorption cross section and the smallest possible highly specific recognition molecules conjugated with the nanoparticle in an oriented manner. However, the conditions used for conjugation of typical recognition molecules (conventional antibodies, Abs) with nanoparticles often provoke their unfolding and/or yield nanoprobes with irregular orientation of Abs on the nanoparticle surface. Conjugation of smaller Ab fragments, such as single-domain antibodies (sdAbs), with quantum dots (QDs) in an oriented manner can be considered as an attractive approach to engineering of ultrasmall diagnostic nanoprobes.QDs conjugated to 13-kDa sdAbs derived from camelid IgG or streptavidin have been used as efficient 1P or 2P excitation probes for imaging of cancer markers. The 2P absorption cross sections (TPACSs) for some conjugates are higher than 49,000 GM (Goeppert–Mayer units), which is close to the theoretical value calculated for CdSe QDs and considerably exceeds that of organic dyes. A further step in advanced QD-based cancer diagnostics has been made through implementation of efficient FRET-based imaging with 2P excitation, which has been demonstrated for double immunostaining complexes formed on the surface of cancer cells from sdAb–QD conjugates (donor) and a combination of monoclonal Abs and secondary antibodies labeled with the AlexaFluor dye (acceptor). The proposed approach permits obtaining an exceptional contrast of 2P imaging of cancer biomarkers without any contribution of cell and tissue autofluorescence in the recorded images.
Highlights
Conventional immunoglobulins G (IgG) have a molecular weight of 150 kDa and average sizes of 14.5×8.5×4 nm3, which hampers their use as recognition molecules for targeted delivery of drugs, tumor imaging, and diagnosis [1]
CdSe/ZnS quantum dots (QDs) with a quantum yield of about 70% were transferred to water phase by replacing the trioctylphosphine oxide (TOPO)/TOP ligands on their surface with DL-Cys
The high degree of orientation is ensured by site-specific conjugation of the QD with single-domain antibodies (sdAbs) via an additional cysteine residue integrated into the C-terminal domain of the sdAb amino acid sequence
Summary
Conventional immunoglobulins G (IgG) have a molecular weight of 150 kDa and average sizes of 14.5×8.5×4 nm, which hampers their use as recognition molecules for targeted delivery of drugs, tumor imaging, and diagnosis [1]. SdAbs are very little prone to aggregation; they exist in the monomeric form and better diffuse into tissues than full-size IgG do [7, 8]. These advantages make sdAbs optimal recognition molecules for the use in QD-based fluorescent nanoprobes for detecting biomarkers of diseases and immunodiagnostics
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