53164-05-9Relevant articles and documents
Preparation method of acemetacin
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Paragraph 0002; 0011-0014, (2020/12/05)
The invention discloses a preparation method of acemetacin. The preparation method comprises the following steps: (1) introducing hydrogen chloride into glacial acetic acid to prepare an acetic acid solution of hydrogen chloride; (2) adding acetic anhydride into the acetic acid solution of hydrogen chloride prepared in the step (1); (3) adding acemetacin tert-butyl ester into the hydrogen chloride-acetic acid-acetic anhydride mixed acidolysis solution obtained in the step (2), and stirring at a constant temperature; (4) after the reaction is finished, cooling, carrying out standing crystallization, filtering, and carrying out top-washing to obtain a crude product acemetacin; and (5) refining the crude product acemetacin to obtain the finished product acemetacin. The invention provides a preparation method of acemetacin, wherein the influence of moisture in raw materials on an acidolysis reaction of acemetacin tert-butyl ester is eliminated on the premise of adopting the existing equipment, so that the product yield is increased, the production cost is lowered, and the economic benefit is improved.
Chemoselective ester/ether C–O cleavage of methyl anisates by aluminum triiodide
Sang, Dayong,Yi, Cuicui,He, Zhoujun,Wang, Jiahui,Tian, Juan,Yao, Ming,Shi, Hong
supporting information, p. 1469 - 1472 (2018/03/13)
The aluminum triiodide mediated chemoselective ester/ether C–O cleavage of methyl anisates was investigated. o-Anisate undergoes ether cleavage at low temperatures in carbon disulfide, cyclohexane and acetonitrile. Further cleavage of the ester group occurs at elevated temperatures to afford salicylic acid. The cleavage of p-anisate is solvent-dependent. In cyclohexane, the ester and ether groups were cleaved non-selectively to give equimolar amounts of p-anisic acid and methyl p-hydroxybenzoate. The ester group was preferentially cleaved in acetonitrile, compared to ether group cleavage in carbon disulfide. The ester cleavage reaction was improved using pyridine as an acid scavenger additive. Reasons for the contrasting reactivity of anisates towards AlI3 were explored, and the methods were applied to cleavage of the tert-butyl ester of acemetacin which gave different products under these conditions.
Glucose promoiety enables glucose transporter mediated brain uptake of ketoprofen and indomethacin prodrugs in rats
Gynther, Mikko,Ropponen, Jarmo,Laine, Krista,Lepp?nen, Jukka,Haapakoski, Paula,Peura, Lauri,J?rvinen, Tomi,Rautio, Jarkko
supporting information; experimental part, p. 3348 - 3353 (2010/03/05)
The brain uptake of solutes is efficiently governed by the blood-brain barrier (BBB). The BBB expresses a number of carrier-mediated transport mechanisms, and new knowledge of these BBB transporters can be used in the rational targeted delivery of drug molecules for active transport. One attractive approach is to conjugate an endogenous transporter substrate to the active drug molecule to utilize the prodrug approach. In the present study, ketoprofen and indomethacin were conjugated with glucose and the brain uptake mechanism of the prodrugs was determined with the in situ rat brain perfusion technique. Two of the prodrugs were able to significantly inhibit the uptake of glucose transporter (GluT1)-mediated uptake of glucose, thereby demonstrating affinity to the transporter. Furthermore, the prodrugs were able to cross the BBB in a temperature-dependent manner, suggesting that the brain uptake of the prodrugs is carrier-mediated.