通过计算分析探索辣椒素作为骨质疏松症的多靶点药物。

In silico pharmacology Pub Date : 2025-08-02 eCollection Date: 2025-01-01 DOI:10.1007/s40203-025-00400-x

Mazumder Adhish, Balaraman Madhan, I Manjubala

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引用次数: 0

摘要

骨质疏松症仍然是一个重大的全球健康挑战，其特点是骨形成和骨吸收之间的不平衡，导致骨骼完整性受损和骨折风险增加。辣椒素是辣椒中的主要生物活性成分，由于其多方面的药理特性，其在调节骨骼健康方面的潜在作用引起了人们的关注。本研究利用计算方法探讨了辣椒素影响骨质疏松相关通路的分子机制。生物信息学分析确定了与辣椒素治疗效果相关的关键枢纽靶点和信号通路。通过分子对接和动态模拟，我们评估了辣椒素与关键蛋白靶点的结合相互作用，为其结构和能量特性提供了详细的见解。值得注意的是，辣椒素显示出与炎症相关介质和基质降解酶的特定相互作用，突出了其干扰导致骨质流失过程的能力。研究结果表明，辣椒素通过减轻炎症和抑制骨降解发挥双重作用，使其成为治疗骨质疏松症的有希望的候选者。这项研究增强了我们对辣椒素在维持骨骼健康中的作用的理解，并强调了它作为一种治疗剂的潜力。此外，该研究为未来的临床前研究提供了一个强大的框架，以验证其疗效并优化其在骨质疏松症治疗中的临床应用。补充信息：在线版本包含补充资料，提供地址为10.1007/s40203-025-00400-x。

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Exploring capsaicin as a multi-target agent for osteoporosis through computational insights.

Osteoporosis remains a significant global health challenge, characterized by an imbalance between bone formation and resorption, leading to compromised skeletal integrity and increased fracture risk. Capsaicin, the primary bioactive component in chilli peppers, has garnered attention for its potential role in modulating bone health due to its multifaceted pharmacological properties. This study investigates the molecular mechanisms underlying capsaicin's influence on osteoporosis-related pathways using a computational approach. Bioinformatics analyses identified key hub targets and signaling pathways linked to capsaicin's therapeutic effects. Employing molecular docking and dynamic simulations, we assessed capsaicin's binding interactions with critical protein targets, providing detailed insights into its structural and energetic properties. Notably, capsaicin demonstrated specific interactions with inflammation-related mediators and matrix-degrading enzymes, highlighting its capacity to interfere with processes driving bone loss. The findings suggest that capsaicin exerts dual-action effects by attenuating inflammation and suppressing bone degradation, positioning it as a promising candidate for osteoporosis treatment. This research enhances our understanding of capsaicin's role in maintaining skeletal health and underscores its potential as a therapeutic agent. Furthermore, the study provides a robust framework for future preclinical studies to validate its efficacy and optimize its application in clinical settings for managing osteoporosis.

Supplementary information: The online version contains supplementary material available at 10.1007/s40203-025-00400-x.

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In silico pharmacology

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