Photoactivatable BODIPYs Designed To Monitor the Dynamics of Supramolecular Nanocarriers

Abstract: Self-assembling nanoparticles of amphiphilic polymers can transport hydrophobic molecules across hydrophilic media and, as a result, can be valuable delivery vehicles for a diversity of biomedical applications. Strategies to monitor their dynamics noninvasively and in real time are, therefore, essential to investigate their translocation within soft matrices and, possibly, rationalize the mechanisms responsible for their diffusion in biological media. In this context, we designed molecular guests with photoact… Show more

“…35 Illumination of 12 at a λ Ac where its 2-nitrobenzyl fragment absorbs cleaves the 2H,4H- [1,3]oxazine heterocycle irreversibly to produce 2 and 5, in agreement with the photochemical behavior of the parent system (1). 27 Consistently, absorption spectra (Figure 4), recorded sequentially during the photolytic transformation in toluene, reveal a decrease in the BODIPY absorption of 12 with the concomitant appearance and growth of the characteristic band of 5. Similarly, the corresponding emission spectra (inset of Figure 4) show the developing fluorescence of the photochemical product and high-performance liquid chromatography (HPLC) traces (Figure 4) further confirm the gradual conversion of 12 into 5.…”

“…The operating principles to activate the fluorescence of our original photoactivatable BODIPY (1 in Figure 1) relied on the irreversible cleavage of a 2H,4H- [1,3]oxazine heterocycle upon illumination at λ Ac . 27 This photochemical reaction extends the electronic delocalization of the BODIPY chromophore over the adjacent 3H-indole auxochrome in the resulting product (3 in Figure 1). Concomitantly, the S 0 → S 1 absorption shifts bathochromically to allow the excitation of 3 at a λ Ex where 1 cannot absorb and, hence, the activation of fluorescence with infinite contrast.…”

A Photoactivatable Far-Red/Near-Infrared BODIPY To Monitor Cellular Dynamics in Vivo

“…35 Illumination of 12 at a λ Ac where its 2-nitrobenzyl fragment absorbs cleaves the 2H,4H- [1,3]oxazine heterocycle irreversibly to produce 2 and 5, in agreement with the photochemical behavior of the parent system (1). 27 Consistently, absorption spectra (Figure 4), recorded sequentially during the photolytic transformation in toluene, reveal a decrease in the BODIPY absorption of 12 with the concomitant appearance and growth of the characteristic band of 5. Similarly, the corresponding emission spectra (inset of Figure 4) show the developing fluorescence of the photochemical product and high-performance liquid chromatography (HPLC) traces (Figure 4) further confirm the gradual conversion of 12 into 5.…”

“…The operating principles to activate the fluorescence of our original photoactivatable BODIPY (1 in Figure 1) relied on the irreversible cleavage of a 2H,4H- [1,3]oxazine heterocycle upon illumination at λ Ac . 27 This photochemical reaction extends the electronic delocalization of the BODIPY chromophore over the adjacent 3H-indole auxochrome in the resulting product (3 in Figure 1). Concomitantly, the S 0 → S 1 absorption shifts bathochromically to allow the excitation of 3 at a λ Ex where 1 cannot absorb and, hence, the activation of fluorescence with infinite contrast.…”

A Photoactivatable Far-Red/Near-Infrared BODIPY To Monitor Cellular Dynamics in Vivo

“…Apart from their sensing properties and applications, indole–BODIPY conjugates have been also used and studied in different disciplines for diverse purposes including assessing fluorescence properties, designing novel supramolecular scaffolds and structures, investigating optical characteristics, and engineering novel solar cells . However, here we aim to emphasize the capability and practicability of indole–BODIPY conjugates for sensing chemical and/or biological entities and for bioimaging studies, therefore the above‐mentioned applications in other fields were regarded as being out of the scope of the present article.…”

Recent chemo‐/biosensor and bioimaging studies based on indole‐decorated BODIPYs

“…Condensation of benzaldehyde with 3‐ethyl‐2,4‐dimethylpyrrole, followed by oxidation with 2,3‐dichloro‐5,6‐dicyano‐1,4‐benzoquinone (DDQ), deprotonation with triethylamine (TEA) and treatment with boron trifluoride led to meso ‐phenyl BODIPY 1 according to literature reports . Subsequently, one methyl group at the 3‐position was selectively oxidized with DDQ in THF/H 2 O to give the corresponding aldehyde 2 . Finally, the treatment of 2 with 4‐hydrazinobenzoic acid in refluxing ethanol gave the phenylhidrazone derivative P1 in almost quantitative yield.…”

“…[15] Subsequently,o ne methylg roup at the 3-position was selectively oxidized with DDQ in THF/H 2 Ot og ive the corresponding aldehyde 2. [16] Finally,the treatment of 2 with 4-hydrazinobenzoic acid in refluxinge thanol gave the phenylhidrazone derivative P1 in almost quantitative yield. P1 was fully characterized by 1 HNMR, 13 CNMR and MS (see the Supporting Information for details).…”

3‐Formyl‐BODIPY Phenylhydrazone as a Chromo‐Fluorogenic Probe for Selective Detection of NO₂ (g)