The Coumarin Moiety as Chromophore of Fluorescent Ion Indicators in Biological Systems

Katerinopoulos, Haralambos E.

doi:10.2174/1381612043382666

Cited by 119 publications

(67 citation statements)

References 54 publications

(61 reference statements)

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“…As lopinavir and coumarin are lipophilic, it was assumed that it will be entrapped within NPs similar to lopinavir. 6-Coumarin-loaded PLGA NPs were prepared by nanoprecipitation method mentioned earlier for the formulation of lopinavir-loaded NPs by replacing half of the drug with 6-coumarin (Katerinopoulos, 2004;Dong & Feng, 2005;Rivolta et al, 2011).…”

Section: Cell Culturementioning

confidence: 99%

Bioavailability enhancement, Caco-2 cells uptake and intestinal transport of orally administered lopinavir-loaded PLGA nanoparticles

2016

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Nanoparticles (NPs) can be absorbed via M cells of Peyer's patches after oral delivery leading to passive lymphatic targeting followed by systemic drug delivery. Hence, the study was aimed to formulate PLGA NPs of lopinavir. The NPs were prepared by nanoprecipitation, optimized by 3 3 factorial design and characterized by TEM, DSC, FTIR studies and safety was assessed by MTT assay. In vivo pharmacokinetic studies were performed in rats. The NPs were discrete spherical structures having particle size of 142.1 ± 2.13 nm and entrapment of 93.03 ± 1.27%. There was absence of drug-polymer interaction. Confocal images revealed the penetration and absorption of coumarin-loaded NPs in Caco-2 cells and intestine after oral delivery. There was 3.04 folds permeability and 13.9 folds bioavailability enhancement from NPs. The NPs can be promising delivery system for antiretroviral drug by delivering the drug to lymph (major HIV reservoir site) via direct absorption through intestine before reaching systemic circulation.

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Section: Cell Culturementioning

confidence: 99%

Bioavailability enhancement, Caco-2 cells uptake and intestinal transport of orally administered lopinavir-loaded PLGA nanoparticles

2016

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“…6 They exhibit Stokes shifts large enough to avoid significant overlap of the excitation and emission spectra and the fluorescence quantum yields allow for ion detection at low indicator concentrations. 7 By the integration of coumarin chromophore in crown ethers, coumarin and its analogues have been extensively used in metal ion detection. [8][9][10] Fluorescent sensors for the detection of heavy metals such as mercury, cadmium and lead are of growing interest due to their bioaccumulation, biomagnification and persistence in the environment.…”

Section: +mentioning

confidence: 99%

Fluorescence Sensing Properties of Thiazolobenzo-crown Ether Incorporating Coumarin

Lee¹,

Helal²,

Kim³

2010

Bulletin of the Korean Chemical Society

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“…Organic dyes, such as coumarin derivatives, are attractive molecules due to their extended spectral range, high emission quantum yields, and photostability. [7] Moreover, coumarin derivatives are frequently encountered as receptors and signaling units in sensors and biosensors [8] as well as in advanced photophysical systems.…”

Section: Introductionmentioning

confidence: 99%

Fullerene–Coumarin Dyad as a Selective Metal Receptor: Synthesis, Photophysical Properties, Electrochemistry and Ion Binding Studies

Pagona

Economopoulos

Tsikalas

et al. 2010

Chemistry A European J

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A coumarin derivative with a malonate unit has been synthesized and used for the preparation of a fullerene-coumarin dyad through the Bingel cyclopropanation method. The newly synthesized dyad is soluble in organic solvents and has been fully characterized with traditional spectroscopic techniques. Electronic interactions between the two components of the dyad were probed with the aid of UV/Vis spectroscopy, fluorescence emission, and electrochemistry measurements. Our studies clearly show the presence of electronic interactions between C(60) and modified coumarin in the ground state; efficient electron-transfer quenching of the singlet excited state of the coumarin moiety by the appended fullerene sphere was also observed. Time-resolved fluorescence measurements revealed lifetimes for the coumarin-C(60) dyad at a maximum of 50 ps, while the quantum yield was reaching unity. Additionally, the redox potentials of the C(60)-coumarin dyad were determined and the energetics of the electron-transfer processes were evaluated. Finally, after alkaline treatment of C(60)-coumarin, which resulted in the deprotection of carboxylate units, the dyad was tested as a metal receptor for divalent metal cations; ion competition studies and fluorescence experiments showed binding selectivity for lead ions.

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The Coumarin Moiety as Chromophore of Fluorescent Ion Indicators in Biological Systems

Cited by 119 publications

References 54 publications

Bioavailability enhancement, Caco-2 cells uptake and intestinal transport of orally administered lopinavir-loaded PLGA nanoparticles

Bioavailability enhancement, Caco-2 cells uptake and intestinal transport of orally administered lopinavir-loaded PLGA nanoparticles

Fluorescence Sensing Properties of Thiazolobenzo-crown Ether Incorporating Coumarin

Fullerene–Coumarin Dyad as a Selective Metal Receptor: Synthesis, Photophysical Properties, Electrochemistry and Ion Binding Studies

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