Department of Applied Chemistry Faculty of Science and Technology, Keio University, Hiyoshi 3-14-1, Kohoku-ku, Yokohama, Kanagawa 223-8522, Japan.
Department of Chemistry, School of Science, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-0033, Japan.
Bioconjug Chem. 2022 Mar 16;33(3):496-504. doi: 10.1021/acs.bioconjchem.2c00035. Epub 2022 Feb 20.
Bioluminescence (BL) imaging, which utilizes light emitted through the enzymatic reaction of luciferase oxidizing its substrate luciferin, enables sensitive and noninvasive monitoring of life phenomena. Herein, we developed a series of caged furimazine (FMZ) derivatives by introducing a protective group at the C-3 position and a hydroxy group at the C-6 phenyl ring to realize long-term live-cell BL imaging based on the NanoLuc (NLuc)/NanoKAZ (NKAZ)-FMZ system. The membrane permeability and cytotoxicity of the substrates were evaluated and related to their hydrophobicity. Among the series, the derivative with the bulkiest protective group (adamantanecarbonyl group) and a hydroxy substituent (named Ad-FMZ-OH) showed significantly prolonged and constant BL signal in cells expressing NLuc compared to the native FMZ substrate. This derivative enabled continuous BL imaging at the single-cell level for 24 h. Furthermore, we applied Ad-FMZ-OH to BL imaging of myocyte fusion and succeeded in the consecutive and sensitive monitoring at a single-cell level over a day. In summary, NLuc/NKAZ-caged FMZ derivatives have the potential to be applied to live-cell BL imaging of various life phenomena that require long-term observation.
生物发光(BL)成像利用荧光素酶氧化其底物荧光素的酶促反应所发射的光,实现了对生命现象的敏感和非侵入性监测。在此,我们通过在 C-3 位引入保护基团和在 C-6 苯环上引入羟基,开发了一系列笼状呋咱(FMZ)衍生物,基于 NanoLuc(NLuc)/NanoKAZ(NKAZ)-FMZ 系统实现了基于细胞的 BL 成像。评估了底物的膜通透性和细胞毒性,并将其与疏水性相关联。在该系列中,具有最大保护基团(金刚烷羰基)和羟基取代基的衍生物(命名为 Ad-FMZ-OH)与天然 FMZ 底物相比,在表达 NLuc 的细胞中表现出显著延长和恒定的 BL 信号。该衍生物能够在单细胞水平上连续 BL 成像 24 小时。此外,我们将 Ad-FMZ-OH 应用于肌细胞融合的 BL 成像,成功地在一天内进行了单细胞水平的连续和敏感监测。总之,NLuc/NKAZ 笼状 FMZ 衍生物有望应用于需要长期观察的各种生命现象的基于细胞的 BL 成像。
