Halogen-free photosensitizers based on -enamine-BODIPYs for bioimaging and photodynamic therapy
The search for efficient heavy atom free photosensitizers (PSs) for photodynamic therapy (PDT) is a very active field. We describe herein a simple and easily accessible molecular design based on the attachment of an enamine group as an electron-donor moiety at the meso position of the BODIPY core wi...
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| Veröffentlicht in: | Journal of materials chemistry. B, Materials for biology and medicine Materials for biology and medicine, 2022-12, Vol.11 (1), p.169-179 |
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| container_title | Journal of materials chemistry. B, Materials for biology and medicine |
| container_volume | 11 |
| creator | Prieto-Montero, Ruth Díaz Andres, Aitor Prieto-Castañeda, Alejandro Tabero, Andrea Longarte, Asier Agarrabeitia, Antonia R Villanueva, Angeles Ortiz, María J Montero, Raúl Casanova, David Martínez-Martínez, Virginia |
| description | The search for efficient heavy atom free photosensitizers (PSs) for photodynamic therapy (PDT) is a very active field. We describe herein a simple and easily accessible molecular design based on the attachment of an enamine group as an electron-donor moiety at the
meso
position of the BODIPY core with different alkylation patterns. The effect of the alkylation degree and solvent polarity on the photophysical properties in terms of splitting absorption bands, fluorescence efficiencies and singlet oxygen production is analyzed in depth experimentally using spectroscopic techniques, including femtosecond and nanosecond transient absorption (fs- and ns-TA) and using computational simulations based on time-dependent density functional theory. The correlation between the theoretical/experimental results permits the rationalization of the observed photophysical behavior exhibited by
meso
-enamine-BODIPY compounds and the determination of mechanistic details, which rule the population of the triplet state manifold. The potential applicability as a theragnostic agent for the most promising compound is demonstrated through
in vitro
assays in HeLa cells by analyzing the internalization, localization and phototoxic action.
By the straightforward incorporation of an enamine group as an electron-donor moiety at
meso
position of BODIPY core, a halogen-free theragnostic photosensitizer for PDT with ability of bio staining lipid droplets is achieved. |
| doi_str_mv | 10.1039/d2tb01515c |
| format | Article |
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meso
position of the BODIPY core with different alkylation patterns. The effect of the alkylation degree and solvent polarity on the photophysical properties in terms of splitting absorption bands, fluorescence efficiencies and singlet oxygen production is analyzed in depth experimentally using spectroscopic techniques, including femtosecond and nanosecond transient absorption (fs- and ns-TA) and using computational simulations based on time-dependent density functional theory. The correlation between the theoretical/experimental results permits the rationalization of the observed photophysical behavior exhibited by
meso
-enamine-BODIPY compounds and the determination of mechanistic details, which rule the population of the triplet state manifold. The potential applicability as a theragnostic agent for the most promising compound is demonstrated through
in vitro
assays in HeLa cells by analyzing the internalization, localization and phototoxic action.
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meso
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meso
position of the BODIPY core with different alkylation patterns. The effect of the alkylation degree and solvent polarity on the photophysical properties in terms of splitting absorption bands, fluorescence efficiencies and singlet oxygen production is analyzed in depth experimentally using spectroscopic techniques, including femtosecond and nanosecond transient absorption (fs- and ns-TA) and using computational simulations based on time-dependent density functional theory. The correlation between the theoretical/experimental results permits the rationalization of the observed photophysical behavior exhibited by
meso
-enamine-BODIPY compounds and the determination of mechanistic details, which rule the population of the triplet state manifold. The potential applicability as a theragnostic agent for the most promising compound is demonstrated through
in vitro
assays in HeLa cells by analyzing the internalization, localization and phototoxic action.
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meso
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meso
position of the BODIPY core with different alkylation patterns. The effect of the alkylation degree and solvent polarity on the photophysical properties in terms of splitting absorption bands, fluorescence efficiencies and singlet oxygen production is analyzed in depth experimentally using spectroscopic techniques, including femtosecond and nanosecond transient absorption (fs- and ns-TA) and using computational simulations based on time-dependent density functional theory. The correlation between the theoretical/experimental results permits the rationalization of the observed photophysical behavior exhibited by
meso
-enamine-BODIPY compounds and the determination of mechanistic details, which rule the population of the triplet state manifold. The potential applicability as a theragnostic agent for the most promising compound is demonstrated through
in vitro
assays in HeLa cells by analyzing the internalization, localization and phototoxic action.
By the straightforward incorporation of an enamine group as an electron-donor moiety at
meso
position of BODIPY core, a halogen-free theragnostic photosensitizer for PDT with ability of bio staining lipid droplets is achieved.</abstract><doi>10.1039/d2tb01515c</doi><tpages>11</tpages></addata></record> |
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| source | Royal Society Of Chemistry Journals 2008- |
| title | Halogen-free photosensitizers based on -enamine-BODIPYs for bioimaging and photodynamic therapy |
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