486-60-2Relevant articles and documents
Kv1.3-blocking 5-phenylalkoxypsoralens: A new class of immunomodulators
Vennekamp, Julia,Wulff, Heike,Beeton, Christine,Calabresi, Peter A.,Grissmer, Stephan,Haensel, Wolfram,Chandy, K. George
, p. 1364 - 1374 (2004)
The lymphocyte potassium channel Kv1.3 is widely regarded as a promising new target for immunosuppression. To identify a potent small-molecule Kv1.3 blocker, we synthesized a series of 5-phenylalkoxypsoralens and tested them by whole-cell patch clamp. The
Photo-protective effects of selected furocoumarins on β-pinene, R-(+)-limonene and γ-terpinene upon UV-A irradiation
Bitterling, Hannes,Kammerer, Dietmar R.,Lorenz, Peter,Stintzing, Florian C.,Vetter, Walter
, (2021/11/09)
The effect of furocoumarins on terpene photo-oxidation under UV-A light was investigated. For this purpose, four furocoumarins (8-methoxypsoralen, bergapten, bergaptol, bergamottin) each at a level of 5%, was added to solutions of the terpenes β-pinene, R-(+)-limonene and γ-terpinene in ethanol followed by UV irradiation at 366 nm. Bergaptol and bergamottin were synthesized and fully elucidated by NMR spectroscopy. UV-induced transformation of all terpenes was substantially reduced in the presence of furocoumarins. Best photo-protection was observed for γ-terpinene with the addition of bergaptol, i.e. degradation was reduced by 73% compared to the neat substance over a time period of ten days. Bergamottin (50.2%), bergapten (39.8%) and 8-methoxypsoralen (39.6%) also reduced degradation substantially. The protective effect of bergaptol was even noticeable at low concentrations of 0.1%. The main oxidation product of γ-terpinene was p-cymene. Limonene and β-pinene showed a predominated hydroperoxide formation under UV light which could almost completely prevented in the presence of furocoumarins. The protective effect of furocoumarins was presumably due to energy dissipation as a result of the conversion of high energetic radiation (UV-A) into visible light via fluorescence. Phosphorescence or self-quenching within the triplet state were further mechanisms avoiding reactions of excited furocoumarins with the terpenes under investigation. Hence, the photo-stability of the furocoumarins themselves correlated with the extent of their protective effect on all three terpenes.
Syntheses and evaluation of the antioxidant activity of novel methoxypsoralen derivatives
Bariamis, Stavros E.,Marin, Marilena,Athanassopoulos, Constantinos M.,Kontogiorgis, Christos,Tsimali, Zinovia,Papaioannou, Dionissios,Sindona, Giovanni,Romeo, Giovanni,Avgoustakis, Konstantinos,Hadjipavlou-Litina, Dimitra
, p. 155 - 169 (2013/04/10)
A series of 5- and 8-methoxypsoralen (MOP) analogs, suitable for structure-antioxidative/anti-inflammatory activity relationship studies, were synthesized using as key-reactions the selective monobromination of MOPs with N-bromosaccharin and either a Heck reaction or a Suzuki coupling or a Suzuki coupling followed by a Wittig reaction to install side-chains of the acrylate- or benzoate- or cinnamate-type, respectively. The 8-MOP analogs 19 and 24, incorporating at position 5 of the psoralen nucleus a butyl acrylate or a tert-butyl cinnamate moiety, were the most powerful inhibitors of soybean LOX and inhibited effectively lipid peroxidation. Analog 19 was a more potent anti-inflammatory agent than the reference compound indomethacin and of comparable cytocompatibility to 8-MOP whereas analog 24 was a weaker inhibitor of inflammation than indomethacin and significantly more cytotoxic than 8-MOP. The results of the biological tests are discussed in terms of structural characteristics.
Substituted 5-alkoxypsoralens as inhibitors of potassium channel activity in lymphocytes and other cells
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Page/Page column 5-6, (2010/08/11)
Compositions of matter comprising 5-phenylalkoxypsoralen compounds and their method of synthesis and use. The compounds are useable to treat diseases or disorders in human or veterinary patients, including autoimmune diseases such as multiple sclerosis. T