Whole-body and whole-organ 3D imaging of hypoxia using activatable covalent fluorescent probe compatible with tissue clearing

Abstract: Elucidation of biological phenomena requires imaging of microenvironments in vivo. Although the seamless visualization of in vivo hypoxia from the level of whole-body to single-cell has a great potential to discover unknown phenomena in biological and medical fields, no methodology for achieving it has been established thus far. Here, we for the first time report the whole-body and whole-organ imaging of hypoxia, an important microenvironment, at single-cell resolution using activatable covalent fluorescent pr… Show more

“…For comparison, we conducted a similar experiment using pimonidazole-fluorophore conjugates, Pimo-Me-Si-Rhodol and Pimo-BODIPY, which we had previously developed for tissue clearing–based imaging of hypoxia (Fig. 5D) ( 35 ). However, these probes yielded few substantial signals of cerebral hypoxia (Fig.…”

Click3D: Click reaction across deep tissues for whole-organ 3D fluorescence imaging

“…For comparison, we conducted a similar experiment using pimonidazole-fluorophore conjugates, Pimo-Me-Si-Rhodol and Pimo-BODIPY, which we had previously developed for tissue clearing–based imaging of hypoxia (Fig. 5D) ( 35 ). However, these probes yielded few substantial signals of cerebral hypoxia (Fig.…”

Click3D: Click reaction across deep tissues for whole-organ 3D fluorescence imaging