木香根茎生物活性植物化学物质的抗炎潜力:针对 TLR-4 信号的 GC-MS 与计算相结合的方法。

Aditya Raj, Arghya Chakravorty, Sahil Luktuke, Sourav Santra, Sudip Das, Subhrajeet Sahoo, Karthikeyan Ramesh, Nidha Fathima A, Siva Sankar Sana, Sivaraman Jayanthi, Arabinda Samanta, Vimala Raghavan
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引用次数: 0

摘要

背景:植物蕴藏着丰富的生物活性化合物,对多种疾病具有公认的治疗价值。值得注意的是,Toll 样受体-4(TLR-4)信号通路在炎症中发挥着关键作用。与脂多糖等促炎配体接触后,TLR-4 会触发涉及核因子ĸappa B 和丝裂原活化蛋白激酶的下游级联。这一信号级联最终决定了炎症性疾病的发生和发展。因此,靶向 TLR-4 信号为控制炎症性疾病提供了一种有前景的治疗方法:本研究调查了一种传统药用植物--Costus speciosus 根茎的植物化合物作为 TLR-4 信号调节剂的潜力,强调了它们的作用机制和潜在的临床应用。本研究采用计算方法,研究了从木犀草根茎中分离出的 18 种植物化合物与 TLR-4/AP-1 信号传导的关系,TLR-4/AP-1 信号传导与炎症过程有关:结果:由于形成了多种分子间相互作用,这些化合物与 TLR-4 蛋白的结合亲和力为 -4.087 至 -8.93 kcal/mol。苯丙酸,3,5-双(1,1-二甲基乙基)-4-羟基,甲酯(化合物 7)显示出超常的结合能(-8.93 kcal/mol),表明与 TLR-4 蛋白具有很强的亲和力。此外,化合物 7 还显示出良好的 ADMET 特性,表明其具有良好的药物开发潜力。分子动力学模拟证实了化合物 7-TLR4 复合物的稳定性,进一步支持了其调节 TLR-4 信号转导的能力:这些发现凸显了木贼属植物化合物(尤其是化合物 7)作为强效抗炎调节剂的治疗潜力。有必要开展进一步研究,在临床前模型中验证其抗炎和神经保护作用,为将其开发为治疗炎症性疾病的新型药物铺平道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Anti-Inflammatory Potential of Costus speciosus rhizome Bioactive Phytochemicals: A Combined GC-MS and Computational Approach Targeting TLR-4 Signaling.

Background: Plants represent a rich reservoir of bioactive compounds with established therapeutic value in diverse diseases. Notably, the Toll-like receptor-4 (TLR-4) signaling pathway plays a pivotal role in inflammation. Upon engagement with pro-inflammatory ligands like lipopolysaccharide, TLR-4 triggers downstream cascades involving nuclear factor ĸappa B and mitogen- activated protein kinases. This signaling cascade ultimately dictates the onset and progression of inflammatory diseases. Therefore, targeting TLR-4 signaling offers a promising therapeutic approach for managing inflammatory disorders.

Methods: This study investigated the potential of Costus speciosus rhizome phytocompounds, a traditional medicinal plant, as novel as modulators of TLR-4 signaling, highlighting their mechanisms of action and potential clinical applications. In the present study, 18 phytocompounds isolated from the rhizome of Costus speciosus, were studied against TLR-4/AP-1 signaling, which is implicated in the inflammatory process using a computational approach.

Results: The compounds exhibited binding affinities ranging from -4.087 to -8.93 kcal/mol with the TLR-4 protein due to the formation of multiple intermolecular interactions. Benzenepropanoic acid, 3,5-bis(1,1-dimethylethyl)-4-hydroxy-, methyl ester (compound 7) exhibited exceptional binding energy (-8.93 kcal/mol), indicating strong affinity for the TLR-4 protein. Additionally, compound 7 displayed favorable ADMET properties, suggesting promising drug development potential. Molecular dynamics simulations confirmed the stability of the compound 7-TLR4 complex, further supporting its ability to modulate TLR-4 signaling.

Conclusion: These findings highlight the therapeutic potential of Costus speciosus phytocompounds, particularly compound 7, as potent anti-inflammatory modulators. Further research is warranted to validate their anti-inflammatory and neuroprotective effects in pre-clinical models, paving the way for their development as novel therapeutic agents for inflammatory diseases.

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