Exploring Placental Protein-Target Protein Interactions: In Silico and In Vitro Approaches for Osteoarthritis Therapy.

IF 1.9 4区生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY

Current protein & peptide science Pub Date : 2025-04-14 DOI:10.2174/0113892037366889250322043039

Jithu Jerin James, K V Sandhya, Parasuraman Pavadai, K N Sridhar, S Sudarson, B V Basavaraj, Bharath Srinivasan

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引用次数: 0

Abstract

Background: Osteoarthritis (OA) is a persistent joint condition marked by gradual softening and breakdown of articular cartilage. Current research in OA treatment explores biologics that target proinflammatory cytokines and proteases, as well as promote chondrocyte regeneration and cartilage repair. Human placental tissues, abundant in anti-catabolic factors, can mitigate cartilage degradation by inhibiting protease expression and maintaining cartilage homeostasis in the presence of anabolic factors.

Objective: This investigation examined placental protein interactions with proteases and OA target proteins through protein-protein docking and dynamic studies.

Method: The NCBI conserved domain database was utilized to predict functional protein domains. Protein sequence motifs were identified using literature, the MEME suite tool, and the My- Hits database. The Expasy-ProtParam online tool was employed to analyze protein physical parameters. ClusPro Advanced Options was used to dock binding site residues of selected placental proteins against specific OA target proteins, while PDBsum and Biovia Discovery Studio were used to visualize and examine molecular interactions. A 100 ns molecular dynamics (MD) study was conducted using DESMOND software.

Result: Protein-protein docking revealed strong interactions of placental proteins with docking scores ranging from -1700 to -2450.3 against proteases and -900 to -1400 against specific target proteins. PDBsum analysis of placental protein-target protein docked complexes revealed residue interactions, hydrogen bonds, and non-bonded contacts. Molecular dynamics simulations further confirmed the stability of these complexes, indicating favorable protein-protein interactions (PPIs). The anti-inflammatory activity of human placental tissue against lipopolysaccharide-induced macrophages was investigated using flow cytometry.

Conclusion: These results provide a foundation for future experimental studies to confirm the predicted interactions and to explore their potential therapeutic applications in OA treatment. Additionally, patients with OA and other arthritic conditions could benefit from the biologics chondroprotective biofactors, which serve as a promising alternative to conventional knee replacement surgery.

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探索胎盘蛋白与靶蛋白的相互作用：骨关节炎的计算机和体外治疗方法。

背景：骨关节炎（OA）是一种以关节软骨逐渐软化和破裂为特征的持续性关节疾病。目前OA治疗的研究探索靶向促炎细胞因子和蛋白酶的生物制剂，促进软骨细胞再生和软骨修复。人胎盘组织中含有丰富的抗分解代谢因子，在合成代谢因子存在的情况下，胎盘组织可以通过抑制蛋白酶的表达，维持软骨的稳态，从而减轻软骨的降解。目的：通过蛋白对接和动态研究，探讨胎盘蛋白与蛋白酶和OA靶蛋白的相互作用。方法：利用NCBI保守结构域数据库预测功能蛋白结构域。使用文献、MEME套件工具和My- Hits数据库确定蛋白质序列基序。利用Expasy-ProtParam在线工具分析蛋白质物理参数。ClusPro Advanced Options用于对接选定的胎盘蛋白与特定OA靶蛋白的结合位点残基，而PDBsum和Biovia Discovery Studio用于可视化和检查分子相互作用。采用DESMOND软件进行了100 ns分子动力学（MD）研究。结果：蛋白-蛋白对接显示胎盘蛋白与蛋白酶的强相互作用，对接评分范围为-1700 ~ -2450.3，与特定靶蛋白的对接评分范围为-900 ~ -1400。胎盘蛋白-靶蛋白对接复合物的PDBsum分析揭示了残基相互作用、氢键和非键接触。分子动力学模拟进一步证实了这些复合物的稳定性，表明有利的蛋白质-蛋白质相互作用（PPIs）。采用流式细胞术研究了人胎盘组织对脂多糖诱导的巨噬细胞的抗炎活性。结论：这些结果为进一步的实验研究奠定了基础，以证实预测的相互作用，并探索其在OA治疗中的潜在应用。此外，骨性关节炎和其他关节炎患者可以从生物制剂软骨保护生物因子中获益，这是传统膝关节置换手术的一个有希望的替代方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Current protein & peptide science 生物-生化与分子生物学

CiteScore

5.20

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： Current Protein & Peptide Science publishes full-length/mini review articles on specific aspects involving proteins, peptides, and interactions between the enzymes, the binding interactions of hormones and their receptors; the properties of transcription factors and other molecules that regulate gene expression; the reactions leading to the immune response; the process of signal transduction; the structure and function of proteins involved in the cytoskeleton and molecular motors; the properties of membrane channels and transporters; and the generation and storage of metabolic energy. In addition, reviews of experimental studies of protein folding and design are given special emphasis. Manuscripts submitted to Current Protein and Peptide Science should cover a field by discussing research from the leading laboratories in a field and should pose questions for future studies. Original papers, research articles and letter articles/short communications are not considered for publication in Current Protein & Peptide Science.