High Photostability in Nonconventional Coumarins with Far-Red/NIR Emission through Azetidinyl Substitution

Abstract: Replacement of electron-donating N,N-dialkyl groups with three- or four-membered cyclic amines (e.g., aziridine and azetidine, respectively) has been described as a promising approach to improve some of the drawbacks of conventional fluorophores, including low fluorescent quantum yields (Φ) in polar solvents. In this work, we have explored the influence of azetidinyl substitution on nonconventional coumarin-based COUPY dyes. Two azetidine-containing scaffolds were first synthesized in four linear synthetic ste… Show more

“…This red-shift was considerably larger in the 4-CF3 analogue (e.g., compare abs = 600 nm for 13 and abs = 568 nm for in PBS). As previously found with the first generation of COUPY dyes, 11,12 10-13 showed negative solvatochromism since the absorption maxima was blue-shifted with increasing polarity of the solvent (e.g., compare the abs of 10-13 in DCM with the corresponding values in non-protic (ACN) and protic (EtOH) polar solvents). Moreover, the molar absorption coefficients of the two derivatives containing the ortho,para-pyrimidine moiety were similar even higher than to those of their respective parent dyes, especially in the 4-CF3 analogue (e.g., compare  = 58 mM -1 cm -1 for 13 and  = 20 mM -1 cm -1 for 5 in EtOH).…”

“…It is worth noting that in all of the COUPY scaffolds the chemical shift of H3 appears at higher δ in the Z isomer (e.g., 8.18 ppm in 7 and 8.26 ppm in 8) than in the E isomer (e.g., 6.70 ppm in 7 and 6.75 ppm in 8). Next, we synthesized the corresponding N-methylated pyridinium (10) and pyrimidinium (11)(12)(13) dyes by reaction with methyl trifluoromethanesulfonate in DCM at room temperature. 11 The four new coumarin derivatives were isolated after silica column chromatography as reddish-orange (10-11), purple (12) and dark blue ( 13) solids (yields 64-80 %), and their purity was assessed by reversed-phase HPLC (Figure S1).…”

“…Next, we synthesized the corresponding N-methylated pyridinium (10) and pyrimidinium (11)(12)(13) dyes by reaction with methyl trifluoromethanesulfonate in DCM at room temperature. 11 The four new coumarin derivatives were isolated after silica column chromatography as reddish-orange (10-11), purple (12) and dark blue ( 13) solids (yields 64-80 %), and their purity was assessed by reversed-phase HPLC (Figure S1). Characterization was carried out by HR ESI-MS and 1D and 2D NMR spectroscopy.…”

“…Surprisingly, the replacement of para pyridine heterocycle by ortho pyridine (10) or ortho,ortho pyrimidine (11) had a negative effect on the spectroscopic properties of the compounds since both absorption and emission were blue-shifted. By contrast, the incorporation of ortho,para pyrimidine (12)(13) led to highly photostable fluorophores with improved photophysical properties compared with the parent compounds, including emission in the far-red to NIR region and large Stokes's shifts. Furthermore, high cell permeability was retained in both ortho,para-pyrimidine-containing dyes and a higher selectivity for mitochondria of HeLa cells was achieved.…”

Modulating Photostability and Mitochondria Selectivity in Far-Red/NIR Emitting Coumarin Fluorophores through Replacement of Pyridinium by Pyrimidinium

“…This red-shift was considerably larger in the 4-CF3 analogue (e.g., compare abs = 600 nm for 13 and abs = 568 nm for in PBS). As previously found with the first generation of COUPY dyes, 11,12 10-13 showed negative solvatochromism since the absorption maxima was blue-shifted with increasing polarity of the solvent (e.g., compare the abs of 10-13 in DCM with the corresponding values in non-protic (ACN) and protic (EtOH) polar solvents). Moreover, the molar absorption coefficients of the two derivatives containing the ortho,para-pyrimidine moiety were similar even higher than to those of their respective parent dyes, especially in the 4-CF3 analogue (e.g., compare  = 58 mM -1 cm -1 for 13 and  = 20 mM -1 cm -1 for 5 in EtOH).…”

“…It is worth noting that in all of the COUPY scaffolds the chemical shift of H3 appears at higher δ in the Z isomer (e.g., 8.18 ppm in 7 and 8.26 ppm in 8) than in the E isomer (e.g., 6.70 ppm in 7 and 6.75 ppm in 8). Next, we synthesized the corresponding N-methylated pyridinium (10) and pyrimidinium (11)(12)(13) dyes by reaction with methyl trifluoromethanesulfonate in DCM at room temperature. 11 The four new coumarin derivatives were isolated after silica column chromatography as reddish-orange (10-11), purple (12) and dark blue ( 13) solids (yields 64-80 %), and their purity was assessed by reversed-phase HPLC (Figure S1).…”

“…Next, we synthesized the corresponding N-methylated pyridinium (10) and pyrimidinium (11)(12)(13) dyes by reaction with methyl trifluoromethanesulfonate in DCM at room temperature. 11 The four new coumarin derivatives were isolated after silica column chromatography as reddish-orange (10-11), purple (12) and dark blue ( 13) solids (yields 64-80 %), and their purity was assessed by reversed-phase HPLC (Figure S1). Characterization was carried out by HR ESI-MS and 1D and 2D NMR spectroscopy.…”

“…Surprisingly, the replacement of para pyridine heterocycle by ortho pyridine (10) or ortho,ortho pyrimidine (11) had a negative effect on the spectroscopic properties of the compounds since both absorption and emission were blue-shifted. By contrast, the incorporation of ortho,para pyrimidine (12)(13) led to highly photostable fluorophores with improved photophysical properties compared with the parent compounds, including emission in the far-red to NIR region and large Stokes's shifts. Furthermore, high cell permeability was retained in both ortho,para-pyrimidine-containing dyes and a higher selectivity for mitochondria of HeLa cells was achieved.…”

Modulating Photostability and Mitochondria Selectivity in Far-Red/NIR Emitting Coumarin Fluorophores through Replacement of Pyridinium by Pyrimidinium

“… 13 , 16 − 21 They have a significant role as synthetic building blocks of foldamers, 22 , 23 N -heterocycles, 24 − 28 and polymers. 29 It has also been demonstrated, that the introduction of these strained rings improves enormously the fluorescent properties of rhodamines 30 − 32 and coumarins 33 and the efficacy of homogenous catalysts as ligands, 34 , 35 which makes them an attractive and challenging synthetic topic for chemists nowadays. Compared to their widespread uses, there are relatively few synthetic methods available, although they cover a wide range of structural variability.…”

Regio- and Diastereoselective Synthesis of 2-Arylazetidines: Quantum Chemical Explanation of Baldwin’s Rules for the Ring-Formation Reactions of Oxiranes

Towards Novel Photodynamic Anticancer Agents Generating Superoxide Anion Radicals: A Cyclometalated Ir^IIIComplex Conjugated to a Far‐Red Emitting Coumarin