133073-68-4Relevant articles and documents
FRET-based dual channel fluorescent probe for detecting endogenous/exogenous H2O2/H2S formation through multicolor images
Velusamy, Nithya,Thirumalaivasan, Natesan,Bobba, Kondapa Naidu,Podder, Arup,Wu, Shu-Pao,Bhuniya, Sankarprasad
, p. 99 - 106 (2019)
We have developed a FRET-based fluorescent probe (PHS1) as a combination of two different fluorophores (coumarin and naphthalimide); which can detect both exogenous and endogenous H2S and H2O2 in live cells through multicolor images. The precise overlap between UV-absorption of naphthalimide and the emission band of coumarin in probe PHS1 allows the acquisition of the self-calibrated information of dual analytes through FRET-based imaging. The UV–Vis absorption (λabs 390 nm) and fluorescence emission (λem 460 nm) of probe PHS1 in the presence of H2O2 are increased ∽35- fold and ∽15-fold respectively. It also allows the estimation of the levels of H2S through enhancement of emission intensity at 550 nm. The probe PHS1 exhibits high stability against various analytes, including various pH (4–9.5). The cell viability assay data indicate that the probe is not harmful to the cancer cells. The nontoxic nature of the probe PHS1 encourages application for cancer cell labeling. The probe PHS1 can detect the level of endogenous H2O2, H2S, and H2O2/H2S in cancer cells through blue, green and FRET-based green channel imaging. PHS1 is a unique probe, has potential application for diagnosing cancer by providing information on the level of dual analytes (H2S, H2O2) in cancer cells.
Synthesis and characterization of new 3-acyl-7-hydroxy-6,8-substituted- coumarin and 3-acyl-7-benzyloxy-6,8-substituted-coumarin derivatives
Chimenti, Franco,Bolasco, Adriana,Secci, Daniela,Bizzarri, Bruna,Chimenti, Paola,Granese, Arianna,Carradori, Simone
experimental part, p. 729 - 733 (2010/08/22)
(Chemical Equation Presented) A new series of 3-acyl-6,7,8-substituted coumarin derivatives has been synthesized in high yields (79-99%) and characterized by means of elemental analysis, mass spectrometry, IR, and 1H NMR spectroscopy. We examined with particular attention the presence of an acyl group at position 3 (ethyl ester, carboxylic acid, and acyl chloride), and of a hydroxyl group at position 7 or a functionalized one like benzyloxy or phthalimido. The hydroxyl group has been modified by an etherification in presence of crown ether with substituted benzyl bromide or chloride to evaluate the influence on chemical characteristics and lipophilicity of coumarin nucleus. Halogens (Cl, Br) and methyl group were introduced in position 6 and 8 of the coumarin ring, respectively, in order to study their effect on reaction feasibility. Some of these 3-acyl derivatives have been recently assayed as MAO inhibitors and as intermediates (i.e. reactive chloride derivative) to design new anti-Helicobacter pylori agents.
Synthesis, molecular modeling, and selective inhibitory activity against human monoamine oxidases of 3-carboxamido-7-substituted coumarins
Chimenti, Franco,Secci, Daniela,Bolasco, Adriana,Chimenti, Paola,Bizzarri, Bruna,Granese, Arianna,Carradori, Simone,Yá?ez, Matilde,Orallo, Francisco,Ortuso, Francesco,Alcaro, Stefano
experimental part, p. 1935 - 1942 (2009/12/07)
A large series of 3-carboxamido-7-substituted coumarins have been synthesized and tested in vitro for their human monoamine oxidase A and B (hMAO-A and hMAO-B) inhibitory activity. Taking into account all the relevant structural information on MAOs reported in the literature, we made some changes in the coumarin nucleus and examined with particular attention the effect on activity and selectivity of substituting at position 3 with N-aryl or N-alkyl carboxamide and at position 7 with a benzyloxy or a 4'-F-benzyloxy group. Some of the assayed compounds proved to be potent, selective inhibitors of hMAO-B with IC50 values in the micromolar range. To better understand the enzyme-inhibitor interaction and to explain the selectivity of the most active compounds toward hMAOs, molecular modeling studies were carried out on new, high resolution, hMAO-A and hMAO-B crystallographic structures. ?2009 American Chemical Society.
