基于布洛芬的离子液体的人体细胞毒性、溶血活性、抗炎活性和水溶性

Joana C Bastos, N. S. Vieira, M. M. Gaspar, A. B. Pereiro, J. Araújo
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引用次数: 4

摘要

离子液体是解决药物活性成分低溶解度、多态和生物利用度低等普遍问题的一种有潜力的方法。本文报道了以非处方非甾体抗炎药(NSAIDs)之一的布洛芬为基础,咪唑离子([C2C1Im][Ibu]和[C2(OH)C1Im][Ibu])和胆碱离子([N1112(OH)][Ibu])合成了三种具有药理活性的il (api - il)。与布洛芬的中性和盐形式(布洛芬钠)相比,基于布洛芬的il的水溶性(水和生物模拟流体)得到了提升。用Caco-2结肠癌细胞和HepG-2肝癌细胞对合成的api - il的细胞毒性谱进行了表征,直到布洛芬的最大血浆浓度(Cmax),而不损害其细胞毒性反应。此外,Caco-2细胞系的EC50对亲本api和api - il均显示相似的结果。同时,通过溶血活性试验对基于布洛芬的il的生物相容性进行了评价,结果表明,所有il在高于布洛芬Cmax浓度时都具有血液相容性。此外,通过抑制牛血清白蛋白(BSA)变性和抑制环氧化酶(COX-1和COX-2)来评估api - il的抗炎特性。结果显示[C2C1Im][Ibu], [C2(OH)C1Im][Ibu]和[N1112(OH)][Ibu]对布洛芬保持抗炎反应,对COX-2的选择性提高,从而开发出更安全的非甾体抗炎药,并为选择性COX-2抑制剂在癌症化疗和神经系统疾病如阿尔茨海默病和帕金森病中的应用提供了新的途径。
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Human Cytotoxicity, Hemolytic Activity, Anti-Inflammatory Activity and Aqueous Solubility of Ibuprofen-Based Ionic Liquids
Ionic liquids (ILs) are a potential solution to the general problem of low solubility, polymorphism and low bioavailability of active pharmaceutical ingredients (APIs). In this work, we report on the synthesis of three pharmaceutically active ILs (API-ILs) based on ibuprofen, one of the most commonly available over-the-counter nonsteroidal anti-inflammatory drugs (NSAIDs), with imidazolium cations ([C2C1Im][Ibu] and [C2(OH)C1Im][Ibu]) and a cholinium cation ([N1112(OH)][Ibu]). An upgrade to the aqueous solubility (water and biological simulated fluids) for the ibuprofen-based ILs relative to the ibuprofen’s neutral and salt form (sodium ibuprofen) was verified. The cytotoxic profiles of the synthesized API-ILs were characterized using two human cells lines, Caco-2 colon carcinoma cells and HepG-2 hepatocellular carcinoma cells, up to ibuprofen’s maximum plasma concentration (Cmax) without impairing their cytotoxicity response. Additionally, the EC50 in the Caco-2 cell line revealed similar results for both parent APIs and API-ILs. The biocompatibility of the ibuprofen-based ILs was also evaluated through a hemolytic activity assay, and the results showed that all the ILs were hemocompatible at concentrations higher than the ibuprofen Cmax. Moreover, the anti-inflammatory properties of the API-ILs were assessed through the inhibition of bovine serum albumin (BSA) denaturation and inhibition of cyclooxygenases (COX-1 and COX-2). The results showed that [C2C1Im][Ibu], [C2(OH)C1Im][Ibu] and [N1112(OH)][Ibu] maintained their anti-inflammatory response to ibuprofen, with improved selectivity towards COX-2, allowing the development of safer NSAIDs and the recognition of new avenues for selective COX-2 inhibitors in cancer chemotherapy and neurological diseases such as Alzheimer’s and Parkinson’s.
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