The viscoelastic properties of cells are responsible for the adhesion process to different surfaces and for cell motility. Therefore, it is very important to develop specific, label-free biosensors with the use of whole cells to study the effect of various factors on the survival and properties of selected type of normal and pathological cells. The quartz crystal microbalance with dissipation energy monitoring (QCM-D) is a technique which enables to track these changes in cells during real-time experiments. One of the applied procedures of the evaluation of the cells' viscoelastic changes is based on the investigations of interactions between specific, different glycans, present on the surface of the primary tumor and its metastases with specific lectins. Two procedures have been developed to detect the differences in the cellular glycosylation profile using cell-based sensors (adherent cells cultured on sensors) and suspension cell-based sensors (adherent cells mechanically detached and inserted into the QCM-D chamber with a sensor). Furthermore, in this work some cell-based sensor regeneration protocols have been described and a lectin-ELISA assay with a fluorescently labeled lectin, thus enabling a qualitative and quantitative tracking of each step of the lectin-glycan binding and unbinding process performed on whole cells.
Keywords: Glycosylation profile; Lectins; Melanoma; QCM-D biosensor; Skin cancer; Viscoelastic properties of cells.
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