| Literature DB >> 26373894 |
Bo Song1, Zhiqing Ye1, Yajie Yang1, Hua Ma1, Xianlin Zheng2, Dayong Jin2, Jingli Yuan1.
Abstract
Sensitive optical imaging of active biomolecules in the living organism requires both a molecular probe specifically responsive to the target and a high-contrast approach to remove the background interference from autofluorescence and light scatterings. Here, a responsive probe for ascorbic acid (Entities:
Mesh:
Substances:
Year: 2015 PMID: 26373894 PMCID: PMC4570993 DOI: 10.1038/srep14194
Source DB: PubMed Journal: Sci Rep ISSN: 2045-2322 Impact factor: 4.379
Figure 1Schematic diagram illustrates the design of a “turn-on” molecular probe specific to vitamin C with long-lived luminescence suitable for time-gated luminescence microscopy (TGLM) system.
(a) The luminescence probe TOB-Eu3+ turns on in its hydroxylamine derivative form of TOHB-Eu3+ in the presence of vitamin C (photographs show luminescence colours of the complex solutions under a 365 nm UV lamp). (b) The TGLM system employs a rapid-switching flash lamp synchronized to a time-gated optical chopper in front of the camera. The camera is externally shut off during the excitation pulse period, and a short time delay is given to allow the short-lived autofluorescence to vanish before the chopper opens for long-lived luminescence detection in absence of optical backgrounds.
Luminescence properties of TOB-Eu3+ and TOBH-Eu3+ in 1:1 ethanol-0.05 M Tris-HCl buffer of pH 7.5.
| TOB-Eu3+ | 329 | 4.13 × 104 | 608 | 7.5 | 0.18 |
| TOHB-Eu3+ | 332 | 6.53 × 104 | 608 | 73.7 | 0.38 |
1Quantum yields were measured in 3:1 ethanol-0.05 M Tris-HCl buffer of pH 7.5.
Figure 2Basic characterizations of the responsive probe TOB-Eu3+ and its on-state compound TOHB-Eu3+.
(a) Time-gated excitation (λem = 608 nm) and emission (λex = 330 nm) spectra of TOB-Eu3+ (0.5 μM) in the presence of different concentrations of vitamin C in 1:1 ethanol-0.05 M Tris-HCl buffer of pH 7.5. (b) UV-vis absorption spectra of TOB-Eu3+ (10 μM, black) and TOHB-Eu3+ (10 μM, red) in 1:1 ethanol-0.05 M Tris-HCl buffer of pH 7.5. (c) Effects of pH on the luminescence intensities of TOB-Eu3+ (0.5 μM, black) and TOHB-Eu3+ (0.5 μM, red) in solutions of 0.05 M Tris-HCl/ethanol (v/v = 1:1) with different pH values. (d) Calibration curve for vitamin C measured on Perkin Elmer Victor 1420 multilabel counter.
Figure 3Specificity evaluations.
Luminescence intensities of the products of TOB-Eu3+ (5.0 μM) reacted with 200 μM different biological reductants and 400 μM H2O2 in 1:1 ethanol-0.05 MTris-HCl buffer of pH 7.5 (black shade bars). The red shade bars show the luminescence intensities of the products of TOB-Eu3+ (5.0 μM) reacted with 200 μM different biological reductants and 400 μM H2O2 in the presence of ascorbic acid (AA) (100 μM) in the buffer.
Figure 4Time-gated luminescence imaging and real-time quantifications of the extracellular vitamin C uptake and intracellular production of vitamin C in living cells.
(a) Time-gated luminescence microscopy images of HepG2 cells loaded with 1.0 mM vitamin C at different loading times and followed by incubation with 20 μM TOB-Eu3+ for 1 h. Scale bar: 50 μm. (b) Time-gated luminescence intensities of HepG2 (•) and HeLa (■) cells loaded with 1.0 mM vitamin C for various incubation times and followed by incubation with 20 μM TOB-Eu3+ for 1 h. (c) Time-gated luminescence intensity of HepG2 cells loaded with 1.0 mM AA (■) or 1.0 mM DHA (•) for various incubation times and followed by incubation with 20 μM TOB-Eu3+.
Figure 5Time-gated in vivo imaging of vitamin C in living Daphnia magna.
Bright-field (a) and time-gated luminescence images (b) of Daphnia magna incubated with 5.0 μM TOB-Eu3+ for 1 h. Time-gated (c) and steady-state (d) luminescence images of Daphnia magna loaded with 1.0 mM vitamin C for 40 min and followed by incubation with 5.0 μM TOB-Eu3+for 1 h. Scale bar: 200 μm.