16468-97-6Relevant academic research and scientific papers
Development of novel silanol-based human pregnane X receptor (PXR) agonists with improved receptor selectivity
Toyama, Hirozumi,Shirakawa, Hitoshi,Komai, Michio,Hashimoto, Yuichi,Fujii, Shinya
, p. 4493 - 4501 (2018)
Pregnane X receptor (PXR) is a ligand-dependent transcription factor that is considered to be a potential therapeutic target for multiple diseases. Herein, we report the development and structure-activity relationship studies of a new series of hPXR agoni
Altered activity profile of a tertiary silanol analog of multi-targeting nuclear receptor modulator T0901317
Toyama, Hirozumi,Sato, Shoko,Shirakawa, Hitoshi,Komai, Michio,Hashimoto, Yuichi,Fujii, Shinya
, p. 1817 - 1820 (2016)
We report the design, synthesis, and physicochemical/biological evaluation of novel silanol derivative 6 (sila-T) as a silanol analog of multi-target nuclear receptor modulator T0901317 (5). Compound 6 showed intermediate hydrophobicity between the corres
Ultrasound-assisted one-pot three-component synthesis of new isoxazolines bearing sulfonamides and their evaluation against hematological malignancies
Talha, Aicha,Favreau, Cécile,Bourgoin, Maxence,Robert, Guillaume,Auberger, Patrick,EL Ammari, Lahcen,Saadi, Mohamed,Benhida, Rachid,Martin, Anthony R.,Bougrin, Khalid
, (2021/09/16)
In the present study, following a one-pot two-step protocol, we have synthesized novel sulfonamides-isoxazolines hybrids (3a-r) via a highly regioselective 1,3-dipolar cycloaddition. The present methodology capitalized on trichloroisocyanuric acid (TCCA) as a safe and ecological oxidant and chlorinating agent for the in-situ conversion of aldehydes to nitrile oxides in the presence of hydroxylamine hydrochloride, under ultrasound activation. These nitrile oxides could be engaged in 1,3-dipolar cycloaddition reactions with various alkene to afford the targeted sulfonamides-isoxazolines hybrids (3a-r). The latter were assessed for their antineoplastic activity against model leukemia cell lines (Chronic Myeloid Leukemia, K562 and Promyelocytic Leukemia, HL-60).
Efficient and Practical Synthesis of Sulfonamides Utilizing SO2 Gas Generated on Demand
Chung Leung, Gulice Yiu,Ramalingam, Balamurugan,Loh, Gabriel,Chen, Anqi
, p. 546 - 554 (2020/04/22)
A simple and practical protocol was developed for the synthesis of sulfonamides by reacting organometallic reagents with SO2 gas generated on demand. SO2 was generated from readily available reagents safely in a highly contained and controlled fashion. The protocol allows the synthesis of sulfonamides without using either atom-inefficient SO2 surrogates or a SO2 cylinder that requires stringent storage regulations in the laboratory. The protocol was successfully applied to the synthesis of sildenafil.
Sequential C-S and S-N Coupling Approach to Sulfonamides
Chen, Kai,Chen, Wei,Han, Bing,Chen, Wanzhi,Liu, Miaochang,Wu, Huayue
supporting information, p. 1841 - 1845 (2020/03/04)
A one-pot three-component reaction involving nitroarenes, (hetero)arylboronic acids, and potassium pyrosulfite leading to sulfonamides was described. A broad range of sulfonamides bearing different reactive functional groups were obtained in good to excellent yields through sequential C-S and S-N coupling that does not require metal catalysts.
Visible-Light-Driven Neutral Nitrogen Radical Mediated Intermolecular Styrene Difunctionalization
Zhao, Quan-Qing,Li, Man,Xue, Xiao-Song,Chen, Jia-Rong,Xiao, Wen-Jing
supporting information, p. 3861 - 3865 (2019/05/24)
A neutral nitrogen radical-mediation strategy, wherein the existing N-H moiety of substrates serves as a neutral nitrogen radical precursor to enable room-temperature intermolecular radical difunctionalization of styrenes under photoredox catalysis, is reported. The reaction shows high functional group tolerance and substrate scope with respect to both components, giving the corresponding products with generally good yields. Preliminary control experiments and DFT calculations are performed to explain the reaction mechanism.
Copper-catalyzed denitrogenative N-arylation of sulfoximines and sulfonamides with arylhydrazines
Dong, Wanrong,Liu, Chaoyang,Ma, Xinchi,Zhang, Yingjun,Peng, Zhihong,Xie, Dexun,An, Delie
, p. 3886 - 3893 (2019/06/18)
A Cu-mediated ligand-free arylation of NH-sulfoximines and sulfonamides by arylhydrazine hydrochlorides was herein demonstrated. The oxidative transformation provided an easy access towards N-aryl sulfoximines and sulfonamides in high yields (up to 93% yields) with broad functional groups tolerance (up to 36 examples). The protocol was proposed to take place through the free radical pathway based on the results of control reactions and EPR analysis.
Sulfonyl imide or sulfonamide of the denitrification arylation method and product and application
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Paragraph 0066-0073, (2019/03/31)
A sulfonyl imide or sulfonamide of the denitrification arylation method and product and application, sulfonimide or sulfonamide of the denitrification arylation method, comprises the following steps: to arylhydrazine and sulfonyl imide or sulfonamide as raw material, the catalyst palladium salt, alkali, solvent and oxidizing agent in the presence of, prepared N - aryl sulfonyl imide or N - aryl sulfonamides. The sulfonimide or sulfonamide of the denitrification arylation method, by adopting the arylhydrazine and sulfonimide or sulfonamide as raw materials used to prepare N - aryl sulfonyl imide or N - aryl sulfonamides, arylhydrazine because of having low cost, high reactivity and easy accessibility and the like, can make the sulfonyl imide or a sulfonamide for the arylation of the method cost is relatively low. The arylhydrazine as aryl group donor, the reaction by-product is N2 And H2 O, so it has the characteristics of green and environmental protection.
A focused fragment library targeting the antibiotic resistance enzyme - Oxacillinase-48: Synthesis, structural evaluation and inhibitor design
Akhter, Sundus,Lund, Bjarte Aarmo,Ismael, Aya,Langer, Manuel,Isaksson, Johan,Christopeit, Tony,Leiros, Hanna-Kirsti S.,Bayer, Annette
supporting information, p. 634 - 648 (2018/01/19)
β-Lactam antibiotics are of utmost importance when treating bacterial infections in the medical community. However, currently their utility is threatened by the emergence and spread of β-lactam resistance. The most prevalent resistance mechanism to β-lactam antibiotics is expression of β-lactamase enzymes. One way to overcome resistance caused by β-lactamases, is the development of β-lactamase inhibitors and today several β-lactamase inhibitors e.g. avibactam, are approved in the clinic. Our focus is the oxacillinase-48 (OXA-48), an enzyme reported to spread rapidly across the world and commonly identified in Escherichia coli and Klebsiella pneumoniae. To guide inhibitor design, we used diversely substituted 3-aryl and 3-heteroaryl benzoic acids to probe the active site of OXA-48 for useful enzyme-inhibitor interactions. In the presented study, a focused fragment library containing 49 3-substituted benzoic acid derivatives were synthesised and biochemically characterized. Based on crystallographic data from 33 fragment-enzyme complexes, the fragments could be classified into R1 or R2 binders by their overall binding conformation in relation to the binding of the R1 and R2 side groups of imipenem. Moreover, binding interactions attractive for future inhibitor design were found and their usefulness explored by the rational design and evaluation of merged inhibitors from orthogonally binding fragments. The best inhibitors among the resulting 3,5-disubstituted benzoic acids showed inhibitory potential in the low micromolar range (IC50 = 2.9 μM). For these inhibitors, the complex X-ray structures revealed non-covalent binding to Arg250, Arg214 and Tyr211 in the active site and the interactions observed with the mono-substituted fragments were also identified in the merged structures.
Direct Access to Aryl Bis(trifluoromethyl)carbinols from Aryl Bromides or Fluorosulfates: Palladium-Catalyzed Carbonylation
Domino, Katrine,Veryser, Cedrick,Wahlqvist, Benjamin A.,Gaardbo, Cecilie,Neumann, Karoline T.,Daasbjerg, Kim,De Borggraeve, Wim M.,Skrydstrup, Troels
supporting information, p. 6858 - 6862 (2018/05/08)
A palladium-catalyzed carbonylative approach for the direct conversion of (hetero)aryl bromides into their α,α-bis(trifluoromethyl)carbinols is described, and it employs only stoichiometric amounts of carbon monoxide and trifluoromethyltrimethylsilane. In addition, aryl fluorosulfates proved highly compatible with these reaction conditions. The method is tolerant of a diverse set of functional groups, and it is adaptable to late-stage carbon-isotope labeling.
