Nagasaki, A.

Multiplex staining is a technique that allows the identification of cell types within a single tissue section by simultaneously detecting multiple molecular markers. Generally, multiplex staining is performed using several combinations of probes, including specific antibodies, nucleic acid probes, and lectins. Here, a novel multiplex staining strategy that relies exclusively on lectin probes that target glycans is presented. Glycans have a vast variety of structural forms that vary depending on cell type-specific modifications. Furthermore, an enormous number of glycan-binding molecules, collectively known as lectins, exist in the biological world. Each lectin displays specificity for a particular glycan motif while maintaining broad affinity. Although lectin-based cell staining has been used in various applications, the partial and limited specificity of lectins has hindered the use of glycan-targeted multiplex staining with lectins. In addition, lectin probes have largely been avoided for cell-type identification because of the absence of strict cell-type-specific glycans. Here, a novel staining method, Glycan Painting, is introduced. Rather than viewing the partial specificity of lectins and the broad, non-cell-type-specific distribution of glycans as drawbacks, this approach turns these features into advantages by generating distinct color patterns that comprehensively visualize cell-type-specific glycan combinations and enable full-color imaging of tissues.