Alam Aftab, Khan Irfan Amir, Elhenawy Ahmed A, Shah Abdul Jabbar, Ali Mumtaz, Ahmad Manzoor, Yu Haitao
College of Chemistry and Materials Science, Hebei Normal University, Shijiazhuang 050024, China.
Department of Chemistry, University of Malakand, Chakdara, Dir (L) , Khyber Pakhtunkhwa 18800, Pakistan.
ACS Omega. 2025 May 15;10(20):20179-20192. doi: 10.1021/acsomega.4c10647. eCollection 2025 May 27.
Twenty-four new amide derivatives of polyhydroquinoline were synthesized, deduced structurally, and evaluated for in vivo anti-inflammatory, analgesic, and calcium channel-blocking activities. Before performing experiments in vivo we performed FMO analysis based on TD-DFT/B3PW91-D3/6-311G++** calculations, displaying a combination of favorable reactivity indices for all compounds , including low values, high softness, and balanced electronegativity and electrophilicity. Their diverse structural features for all compounds suggest that they may interact with different biological targets or have varying mechanisms of action. The in vivo evaluation of the anti-inflammatory analgesic and calcium channel-blocking effects was carried out in mice and rats, respectively. A carrageenan-induced paw edema model was adopted to measure the reduction in paw volume. An acetic acid-induced writhing test was conducted to evaluate the writhing response in mice. Additionally, isolated aortic ring preparations from rats were used to investigate the potential calcium channel-blocking effect against high K-induced contraction in the organ bath assembly. In the series, seven derivatives and exhibited potent activity, with 83.33-80.00% decreases in edema, which is closer to the value of the standard compound indomethacin, showing 86.95%. Similarly, the remaining derivatives exhibited significant to less activity, showing 76.92-47.36% decreases in edema. In the case of analgesic activity, all of the products significantly increased the pain threshold time, mainly, compounds and which had the best analgesic effects of 18.92 ± 1.10, 18.91 ± 1.81, and 17.00 ± 1.28 s, respectively, when compared with indomethacin as the standard (20.00 ± 1.60) using the hot plate test. Likewise, in the acetic acid-induced writhing test, six compounds showed potent inhibitory effects from 76.82 to 63.29%, while in CCB activity against high K (80 mM) in aortic ring preparations, compound showed the maximum vasorelaxant effect with an EC value of 2.24 μg/mL (1.0-3.48). The most active compounds form a stable complex on the active site of the prostaglandin endoperoxide synthase II enzyme, which was confirmed by a docking study using amino acid binding pockets occupied by the reference drug indomethacin.
合成了24种新的多氢喹啉酰胺衍生物,对其进行了结构推导,并评估了它们的体内抗炎、镇痛和钙通道阻滞活性。在进行体内实验之前,我们基于TD-DFT/B3PW91-D3/6-311G++**计算进行了FMO分析,结果显示所有化合物都具有良好的反应性指数组合,包括低 值、高柔软度以及平衡的电负性和亲电性。所有化合物多样的结构特征表明它们可能与不同的生物靶点相互作用或具有不同的作用机制。分别在小鼠和大鼠中进行了抗炎、镇痛和钙通道阻滞作用的体内评估。采用角叉菜胶诱导的爪肿胀模型来测量爪体积的减小。进行乙酸诱导的扭体试验以评估小鼠的扭体反应。此外,使用大鼠离体主动脉环标本在器官浴装置中研究对高钾诱导收缩的潜在钙通道阻滞作用。在该系列中,7种衍生物 和 表现出强效活性,水肿减少83.33 - 80.00%,接近标准化合物吲哚美辛的86.95%的值。同样,其余衍生物表现出显著到较弱的活性,水肿减少76.92 - 47.36%。在镇痛活性方面,所有产物均显著延长了痛阈时间,主要是化合物 和 ,在热板试验中,与作为标准的吲哚美辛(20.00 ± 1.60)相比,它们的最佳镇痛效果分别为18.92 ± 1.10、18.91 ± 1.81和17.00 ± 1.28秒。同样,在乙酸诱导的扭体试验中,6种化合物表现出76.82%至63.29%的强效抑制作用,而在主动脉环标本中对高钾(80 mM)的CCB活性方面,化合物 表现出最大的血管舒张作用,EC值为2.24 μg/mL(1.0 - 3.48)。活性最强的化合物在前列腺素内过氧化物合酶II酶的活性位点形成稳定复合物,这通过使用参考药物吲哚美辛占据的氨基酸结合口袋进行的对接研究得到证实。
