‘AIE + ESIPT’ assisted photorelease: fluorescent organic nanoparticles for dual anticancer drug delivery with real-time monitoring ability

Biswas, Sandipan; Mengji, Rakesh; Barman, Shrabani; Vangala, Venugopal; Jana, Avijit; Singh, N. D. Pradeep

doi:10.1039/c7cc07692d

Cited by 52 publications

(41 citation statements)

References 29 publications

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“…Certain 2‐naphthol tethered Schiff bases show fluorescence emissions due to excited state intramolecular proton‐transfer and the intensity of emission in each case was enhanced upon addition of water. It is also suggested that ESIPT and AIE took place in those hydroxy‐aromatic imines and the emissions were dependent on the concentration of water . Based on these one may suggest that the emission occurring at the 446 nm of 2‐hydroxynaphthaldoxime upon addition of water is due to a combine effect of ESIPT and AIE.…”

Section: Resultsmentioning

confidence: 97%

Water‐Assisted Emission Enhancement of 2‐Hydroxynaphthaldoxime and Related Compounds

Tarai

Baruah

2018

ChemistrySelect

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The combined contributions from the excited‐state intramolecular proton‐transfer and aggregation‐induced emission in the photoluminescence of compounds namely 2‐hydroxynaphthaldoxime, 2‐methoxynaphthaldoxime, 2‐hydroxynaphthaldehyde and 1‐[(methylimino)methyl]naphthalen‐2‐ol were established. For such a purpose the changes in the fluorescence emission of these compounds in different solvents upon addition of water and from the fluorescence emission life‐time decay profiles were studied. 1H‐NMR titration of the 2‐hydroxynaphthaldoxime with D2O had provided clear evidence on the role of water molecules to disrupt the C−H⋅⋅⋅O interactions in assembly of 2‐hydroxynaphthaldoxime to orient the aromatic naphthalene rings differently to enhance the fluorescence emissions. Dynamic light scattering studies and scanning electron micrographs had showed that there were differences between the types of aggregation present in solid state and in solution. In solution the average size of the aggregates of 2‐hydroxynaphthaldoxime were increased upon addition of water. 2‐Hydroxynaphthaldoxime formed well defined cocrystal with tetrabutylammonium chloride but the tetrabutylammonium hydroxide formed salt of 2‐hydroxynaphthaldoxime by deprotonating hydroxy‐group. Accordingly the fluorescence emission changes of 2‐hydroxynaphthaldoxime caused by tetrabutylammonium hydroxide was different from the emission showed by the cocrystal with tetrabutylammonium chloride.

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Section: Resultsmentioning

confidence: 97%

Water‐Assisted Emission Enhancement of 2‐Hydroxynaphthaldoxime and Related Compounds

Tarai

Baruah

2018

ChemistrySelect

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“…74 It is also the basis for revealing the complex relationship between dietary exposure and chronic diseases with metabolic phenotypic changes. 75 The emergence of nutritional metabolomics has two main objectives: (1) to determine the effects of dietary compounds on host metabolism within a certain period of time; (2) to determine the biomarkers of dietary intake or phytochemical dosedependent metabolites. 76,77 The application of metabolomics in nutrition research can generally be divided into four main elds: identication of dietary biomarkers, identication of dietary-related diseases and disease biomarkers, application of nutrition as a tool to identify molecular mechanisms in dietary intervention research, and precision nutrition.…”

Section: Metabolomics Analysis For Nutrition Sciencementioning

confidence: 99%

Mass spectrometry-based metabolomics in health and medical science: a systematic review

Zhang

et al. 2020

RSC Adv.

141

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“…The combination of AIE with ESIPT enables probes to have excellent photophysical properties, such as large Stokes shifts and low inner‐filter effects . By virtue of this, a photoresponsive drug delivery system ( 28 , Figure ) exhibiting both AIE and ESIPT phenomena was developed . Two different drugs could be conjugated on the 28 by chemical reaction.…”

Section: Strategies To Realize Accurate Detection Using Aie Probesmentioning

confidence: 99%

“…90,91 By virtue of this, a photoresponsive drug delivery system (28, Figure 2) exhibiting both AIE and ESIPT phenomena was developed. 92 Two different drugs could be conjugated on the 28 by chemical reaction. Ascribed to ESIPT, two emission maxima, an enol form and a keto form, were observed at 470 and 560 nm, respectively.…”

Section: Combination With Other Photophysical Processesmentioning

confidence: 99%

A new approach to developing diagnostics and therapeutics: Aggregation‐induced emission‐based fluorescence turn‐on

Guo

Song

et al. 2019

Medicinal Research Reviews

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Fluorescence imaging is a promising visualization tool and possesses the advantages of in situ response and facile operation; thus, it is widely exploited for bioassays. However, traditional fluorophores suffer from concentration limits because they are always quenched when they aggregate, which impedes applications, especially for trace analysis and real‐time monitoring. Recently, novel molecules with aggregation‐induced emission (AIE) characteristics were developed to solve the problems encountered when using traditional organic dyes, because these new molecules exhibit weak or even no fluorescence when they are in free movement states but emit intensely upon the restriction of intramolecular motions. Inspired by the excellent performances of AIE molecules, a substantial number of AIE‐based probes have been designed, synthesized, and applied to various fields to fulfill diverse detection tasks. According to numerous experiments, AIE probes are more practical than traditional fluorescent probes, especially when used in bioassays. To bridge bioimaging and materials engineering, this review provides a comprehensive understanding of the development of AIE bioprobes. It begins with a summary of mechanisms of the AIE phenomenon. Then, the strategies to realize accurate detection using AIE probes are discussed. In addition, typical examples of AIE‐active materials applied in diagnosis, treatment, and nanocarrier tracking are presented. In addition, some challenges are put forward to inspire more ideas in the promising field of AIE‐active materials.

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‘AIE + ESIPT’ assisted photorelease: fluorescent organic nanoparticles for dual anticancer drug delivery with real-time monitoring ability

Abstract: 'Aggregation Induced Emission + Excited State Intramolecular Proton Transfer (AIE + ESIPT)'-assisted photorelease of an anticancer drug by a p-hydroxyphenacyl (pHP) phototrigger with real-time monitoring has been demonstrated.

Cited by 52 publications

References 29 publications

Water‐Assisted Emission Enhancement of 2‐Hydroxynaphthaldoxime and Related Compounds

Water‐Assisted Emission Enhancement of 2‐Hydroxynaphthaldoxime and Related Compounds

Mass spectrometry-based metabolomics in health and medical science: a systematic review

A new approach to developing diagnostics and therapeutics: Aggregation‐induced emission‐based fluorescence turn‐on

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