Dehydrocoelenterazine (dCTZ) is a dehydrogenated form of coelenterazine (CTZ), which is well-known as the luciferin responsible for the bioluminescence reaction in marine organisms. In this report, we demonstrate for the first time that dCTZ is readily reduced to CTZ in mammalian cells. Using an FDSS®/μCell functional drug screening system, the conversion of dCTZ to CTZ in cells was identified through the luciferin (CTZ)-luciferase reaction in Chinese hamster ovary K1 (CHO-K1) cell lines, which stably expressed CTZ-utilizing luciferases of Renilla luciferase (RLase) or QL-nanoKAZ (a mutant of the 19 kDa protein of Oplophorus luciferase). After loading dCTZ into CHO-K1 cells expressing RLase or QL-nanoKAZ, the luminescence from both cells was detected within 10 s and continued for over 30 min. Thus, dCTZ permeates mammalian cells and is immediately converted to CTZ. This suggests that dCTZ could potentially be used as a substitute for CTZ in in vivo assays of the CTZ-dependent luminescence systems.
Keywords: Coelenterazine-utilizing luciferase; Flavin reductase; Reduced flavin; Renilla luciferase; nanoKAZ mutant of QL-nanoKAZ.
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