Click3D: Click reaction across deep tissues for whole-organ 3D fluorescence imaging.
Iori TamuraDaichi M SakamotoBo YiYutaro SaitoNaoki YamadaJumpei MorimotoYoichi TakakusagiMasafumi KurodaShimpei I KubotaHiroyuki YatabeMinoru KobayashiHiroshi HaradaKazuki TainakaShinsuke SandoPublished in: Science advances (2024)
Click chemistry offers various applications through efficient bioorthogonal reactions. In bioimaging, pretargeting strategies have often been used, using click reactions between molecular probes with a click handle and reporter molecules that make them observable. Recent efforts have integrated tissue-clearing techniques with fluorescent labeling through click chemistry, allowing high-resolution three-dimensional fluorescence imaging. Nevertheless, these techniques have faced a challenge in limited staining depth, confining their use to imaging tissue sections or partial organs. In this study, we introduce Click3D, a method for thoroughly staining whole organs using click chemistry. We identified click reaction conditions that improve staining depth with our custom-developed assay. The Click3D protocol exhibits a greater staining depth compared to conventional methods. Using Click3D, we have successfully achieved whole-kidney imaging of nascent RNA and whole-tumor imaging of hypoxia. We have also accomplished whole-brain imaging of hypoxia by using the clickable hypoxia probe, which has a small size and, therefore, has high permeability to cross the blood-brain barrier.