- Investigations into neuroprotectivity, stability, and water solubility of 7-O-cinnamoylsilibinin, its hemisuccinate and dehydro derivatives
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Derivatives of the recently described potent neuroprotective 7-O-cinnamoylsilibinin ester were prepared: its hemisuccinate to improve water solubility and the dehydrosilibinin ester that was shown to form in assay media to investigate its role in overall neuroprotective effects. 7-O-Cinnamoyl-2,3-dehydrosilibinin is less neuroprotective than 7-O-cinnamoylsilibinin in a murine hippocampal cell line (HT-22) and we conclude that the dehydrosilibinin derivatives are not the actual carriers of neuroprotective properties, at least in the assay applied. Solubility of the test compounds was determined in shake-flask experiments and the ester's solubility was greatly improved by introduction of a hemisuccinate at the 23-position of silibinin. Time–stability curves in assay media were recorded. The hemisuccinate ester did not act as a prodrug to release 7-O-cinnamoylsilibinin but is the second ester bond to be cleaved. Nevertheless, it still exhibits significant neuroprotection. Therefore, its greatly increased solubility might effectively counterbalance lower in vitro neuroprotection.
- Schramm, Simon,Gunesch, Sandra,Lang, Florian,Saedtler, Marco,Meinel, Lorenz,H?gger, Petra,Decker, Michael
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- Metal coordination protocol for the synthesis of-2,3-dehydrosilybin and 19-O-demethyl-2,3-dehydrosilybin from silybin and their antitumor activities
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An efficient and practical method to access bioactive 2,3-dehydrosilybin and 19-O-demethyl-2,3-dehydrosilybin using naturally abundant flavonolignan silybin in the presence of metal salt as a chelating agent is described. The procedure presented here has
- Wen, Yong-ju,Zhou, Zong-yuan,Zhang, Guo-lin,Lu, Xiao-xia
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- Continuous flow microchannel synthesis process of flavonoid compounds
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The invention provides a continuous flow microchannel synthesis process of flavonoid compounds. According to the process, hesperidin and iodine elementary substance are used as raw materials and react in a continuous flow microchannel reactor in the presence of a reaction solvent to synthesize the flavonoid compound as shown in a formula A. Compared with a traditional kettle-type preparation process, the process disclosed by the invention has the advantages that the preparation time is obviously shortened, and the conversion rate of raw materials and the yield of products are obviously improved; and especially, when the diosmin is prepared under optimal process conditions of continuous flow microchannel synthesis, the conversion rate of the raw material hesperidin is as high as 96.48%, and the yield of the product diosmin is as high as 81.96%. The continuous flow micro-channel synthesis process provided by the invention is beneficial to realizing safe, efficient and rapid industrial production of flavonoid compounds, and has a wide application prospect.
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Paragraph 0050-0059; 0061
(2021/06/22)
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- Inhibition of Aβ Amyloid Growth and Toxicity by Silybins: The Crucial Role of Stereochemistry
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The self-assembling of the amyloid β (Aβ) peptide into neurotoxic aggregates is considered a central event in the pathogenesis of Alzheimer's disease (AD). Based on the amyloid hypothesis , many efforts have been devoted to designing molecules able to halt disease progression by inhibiting Aβ self-assembly. Here, we combine biophysical (ThT assays, TEM and AFM imaging), biochemical (WB and ESI-MS), and computational (all-atom molecular dynamics) techniques to investigate the capacity of four optically pure components of the natural product silymarin (silybin A, silybin B, 2,3-dehydrosilybin A, 2,3-dehydrosilybin B) to inhibit Aβ aggregation. Despite TEM analysis demonstrated that all the four investigated flavonoids prevent the formation of mature fibrils, ThT assays, WB and AFM investigations showed that only silybin B was able to halt the growth of small-sized protofibrils thus promoting the formation of large, amorphous aggregates. Molecular dynamics (MD) simulations indicated that silybin B interacts mainly with the C-terminal hydrophobic segment 35MVGGVV40 of Aβ40. Consequently to silybin B binding, the peptide conformation remains predominantly unstructured along all the simulations. By contrast, silybin A interacts preferentially with the segments 17LVFF20 and 27NKGAII32 of Aβ40 which shows a high tendency to form bend, turn, and β-sheet conformation in and around these two domains. Both 2,3-dehydrosilybin enantiomers bind preferentially the segment 17LVFF20 but lead to the formation of different small-sized, ThT-positive Aβ aggregates. Finally, in vivo studies in a transgenic Caenorhabditis elegans strain expressing human Aβ indicated that silybin B is the most effective of the four compounds in counteracting Aβ proteotoxicity. This study underscores the pivotal role of stereochemistry in determining the neuroprotective potential of silybins and points to silybin B as a promising lead compound for further development in anti-AD therapeutics.
- Sciacca, Michele. F. M.,Romanucci, Valeria,Zarrelli, Armando,Monaco, Irene,Lolicato, Fabio,Spinella, Natalia,Galati, Clelia,Grasso, Giuseppe,D'Urso, Luisa,Romeo, Margherita,Diomede, Luisa,Salmona, Mario,Bongiorno, Corrado,Di Fabio, Giovanni,La Rosa, Carmelo,Milardi, Danilo
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p. 1767 - 1778
(2017/08/21)
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- Base-catalyzed oxidation of silybin and isosilybin into 2,3-dehydro derivatives
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The base-catalyzed oxidation of the flavonolignans, silybin, and isosilybin into the corresponding 2,3-dehydro derivatives has been studied and optimized. Various bases, solvents, and reaction conditions were tested to achieve the best yields. The influence of water on the course of the reaction was also observed. It was found that this oxidation reaction was probably based on the disproportionation of the (iso)silybin (or some intermediate) molecule, as the reaction also proceeds in the absence of oxygen. We report here for the first time the preparation of optically pure 2,3-dehydroisosilybins A and B.
- Ga?ák, Radek,Trouillas, Patrick,Biedermann, David,Fuksová, Kate?ina,Marhol, Petr,Kuzma, Marek,K?en, Vladimír
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supporting information
p. 315 - 317
(2013/02/23)
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- A rapid and simple chromatographic separation of diastereomers of silibinin and their oxidation to produce 2,3-dehydrosilybin enantiomers in an optically pure form
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Silybin A and B were separated from commercial silibinin using the preparative HPLC method. The described method is rapid and effective in obtaining gram-scale amounts of two diastereoisomers with minimal effort. In our approach, silibinin was dissolved in THF (solubility greater than 100 mg/mL), an alternative solvent to H2O or MeOH in which silibinin has a very low solubility (ca 0.05-1.5 mg/mL), and then separated into its two components using preparative RP-HPLC. By starting with purified diastereoisomers, it was possible to obtain the two enantiomers of 2,3-dehydrosilybin in good yields and optically pure using an efficient oxidation procedure. All of the purified products were fully characterised using NMR (1H, 13C), CD, [α]D, and ESI MS analyses. The purities of the products, which were evaluated using analytical HPLC, were greater than 98 % in all cases. Georg Thieme Verlag KG Stuttgart New York.
- Di Fabio, Giovanni,Romanucci, Valeria,Di Marino, Cinzia,De Napoli, Lorenzo,Zarrelli, Armando
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p. 1077 - 1080
(2013/09/12)
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- Preparation and effects of 2,3-dehydrosilymarin, a promising and potent antioxidant and free radical scavenger
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Objectives Silymarin or silybin has been effectively used for treating liver diseases and acute liver injury partly due to its antioxidant activity. In this study, 2,3-dehydrosilymarin, a compound exhibiting remarkable antiradical/antioxidant activity, wa
- Tong, Shanshan,Chu, Chang,Wei, Yuan,Wang, Li,Gao, Xizhe,Xu, Ximing,Yu, Jiangnan
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experimental part
p. 238 - 244
(2011/12/22)
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- Kinetic spectrophotometric method for the determination of silymarin in pharmaceutical formulations using potassium permanganate as oxidant
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A new simple and sensitive kinetic spectrophotometric method for the determination of silymarin in pure form and in pharmaceutical formulations is described. The method is based on the oxidation of the drug with potassium permanganate at pH 7.0 ± 0.2. The reaction is followed spectrophotometrically by measuring the decrease in the absorbance at 530 nm. The calibration graph is linear in the range of 18-50 μg · ml -1. The method has been successfully applied to the determination of silymarin in pharmaceutical formulations. Statistical comparison of the results with the reference method shows excellent agreement and indicates no significant difference in accuracy and precision.
- Rahman, Nafisur,Khan,Azmi
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p. 112 - 116
(2007/10/03)
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