Use of Super-Resolution Optical Microscopy To Reveal Direct Virus Binding at Hybrid Core-Shell Matrixes

Polymer particles with antibody-like affinity, i.e., molecularly imprinted polymers, offer an ideal platform for biopharmaceutical virus purification. In recent years, attempts combining molecular imprinting technology with a variety of visualization and detection techniques have been reported for directly confirming the localized presence of the template. Direct target visualization is crucial for the characterization of molecularly imprinted polymers, especially if biological templates such as viruses are used. In the present study, for the first time the viral binding behavior at virus-imprinted polymers (VIPs) via stimulated emission depletion (STED) microscopy is shown by imaging individual, fluorescently labeled virus particles. STED microscopy achieves among various other super-resolution techniques the best temporal resolution at high spatial resolution. An innovative virus purification material selective for human adenovirus type 5 (AdV5) offered highly purified virus for the subsequent fluorescent labeling procedure, thus enabling STED imaging. Excellent binding affinities (150-fold higher versus control particles) and high selectivity toward the target virus (AdV5) were observed at those VIPs, even in competitive binding experiments with minute virus of mice using dual-label STED microscopy.