Prostate-specific membrane antigen (PSMA) is overexpressed in prostate cancer cells and tumor vasculature, making it an important biomarker. However, conventional PSMA-targeting agents like antibodies and small molecules have limitations. Antibodies exhibit instability and complex production, while small molecules show lower specificity and higher toxicity. Herein, this work develops a novel PSMA-targeting synthetic antibody to address prior limitations. This work synthesizes fluorescently labelled, N-isopropylacrylamide-based epitope imprinted nanogels (MIP-M) using a dispersion of magnetic nanoparticles as template carriers with a linear epitope from PSMA's extracellular apical domain as the template. MIP-M demonstrates high binding affinities for both the epitope template (apparent KD = 6 × 10-10 м) and PSMA (apparent KD = 2.5 × 10-9 м). Compared to reference peptides and human serum albumin, MIP-M indicates high specificity. Flow cytometry and confocal laser scanning microscopy comparing cell lines displaying normal (PC3) and enhanced (LNCaP) PSMA expression levels, revealed that MIP-M and a PSMA antibody exhibits comparable binding preferences for the latter cell line. Moreover, MIP-M demonstrates selectivity on par with the PSMA antibody for targeting PSMA-positive prostate tumor over normal tissue, enabling discrimination. This MIP-M addresses stability, production, specificity and toxicity limitations of prior targeting agents and offer a promising alternative for PSMA-directed cancer diagnosis and treatment.
Keywords: dispersed‐phase imprinting; molecularly imprinted nanogels; prostate cancer; prostate‐specific membrane antigen; tissue imaging.
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