Synthesis of Naproxen Esters and Evaluation of their In vivo and In silico Analgesic and Anti-inflammatory Activities

Dhaka University Journal of Pharmaceutical Sciences Pub Date : 2023-06-24 DOI:10.3329/dujps.v22i1.67101

Mansura Akter, Z. A. Mahmud, Mir Muhammad Nasir Uddin, Raju Das, S. Rahman

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Abstract

Three consecutive alkyl esters methyl (1), ethyl (2) and isopropyl (3) esters were synthesized from naproxen by direct Fischer esterification reaction and were evaluated for their in vivo and in silico analgesic and antiinflammatory activities. Methyl and ethyl ester showed potent peripheral analgesia with 82.09% and 82.59% writhing inhibition, respectively compared to that of naproxen (64.68% inhibition) at equivalent dose of 25 mg/kg bw. In antiinflammatory study, all the three esters generated 96.75%, 91.54% and 90.65% inhibition of inflammation at 5th hour, similar to that obtained by naproxen (95.12% inhibition). Molecular docking study suggested that methyl ester had the highest binding energy towards COX-2 enzyme, while isopropyl ester possessed the lowest energy, and also exhibited the lower Vander Waals interaction that might affect COX inhibition. Moreover, all the compounds had satisfactory ADME profile. Again, methyl ester satisfied the safety issues, while other compounds might have cardio toxicity. Dhaka Univ. J. Pharm. Sci. 22(1): 105-114, 2023 (June)

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萘普生酯类化合物的合成及其体内、体外镇痛、抗炎活性的评价

以萘普生为原料，采用直接Fischer酯化法合成了甲基酯(1)、乙基酯(2)和异丙基酯(3)三个连续的烷基酯，并对它们的体内和体外镇痛和抗炎活性进行了评价。与萘普生相同剂量(25 mg/kg bw)的抑制率(64.68%)相比，甲酯和乙酯表现出较强的外周镇痛作用，其扭体抑制率分别为82.09%和82.59%。在抗炎研究中，3种酯在第5小时对炎症的抑制作用分别为96.75%、91.54%和90.65%，与萘普生的抑制作用(95.12%)相似。分子对接研究表明，甲酯对COX-2酶的结合能最高，而异丙酯对COX-2酶的结合能最低，并表现出可能影响COX抑制的较低的范德瓦尔斯相互作用。此外，所有化合物均具有令人满意的ADME谱。同样，甲酯满足了安全性问题，而其他化合物可能有心脏毒性。达卡大学药学院。自然科学22(1):105- 114,2023 (6)

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Dhaka University Journal of Pharmaceutical Sciences

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