乾隆舒通方治疗良性前列腺增生的临床验证。

IF 1.6 4区医学 Q4 BIOCHEMICAL RESEARCH METHODS

Combinatorial chemistry & high throughput screening Pub Date : 2025-01-02 DOI:10.2174/0113862073336172241220182220

Ze-Chao Zhang, Min Zhu, Shu-Ping Huang, Zhi-Feng Wei, Yu Chen, Chang-Jie Shang

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引用次数: 0

摘要

目的：探讨乾隆舒通方（QLSTF）治疗良性前列腺增生（BPH）的作用机制。背景：前列腺增生是老年男性的一种普遍疾病，由于目前治疗方案的有效性有限和潜在的副作用，对管理提出了重大挑战。中药QLSTF已被用于治疗前列腺增生；然而，其作用机制仍未得到充分的了解。目的：本研究旨在通过网络药理学的应用和后续的实验验证，寻找QLSTF治疗BPH的潜在靶点。方法：采用液相色谱-质谱联用技术对QLSTF化合物进行鉴定。从公共数据库中检索到QLSTF的潜在靶标以及bph相关靶标。通过生物信息学分析，包括蛋白质-蛋白质相互作用（PPI）、基因本体（GO）和京都基因与基因组百科全书（KEGG）分析，获得了关键的生物活性成分、潜在靶点和信号通路。随后进行分子对接，预测活性化合物与核心靶点的结合。最后，通过体外和体内实验进一步验证研究结果。结果：共筛选出52个QLSTF活性成分和760个QLSTF- bph相关靶点。生物信息学分析显示，鸢尾素、水仙素、甘草素、大黄素和赤藓糖醇可能是潜在的候选药物。AKT1、SRC、STAT3、GRB2、HRAS、MAPK3、PIK3CA、PIK3R1、HSP90AA1和EP300可能成为潜在的治疗靶点。PI3KAKT信号通路可能在QLSTF抗BPH中发挥重要作用。此外，分子对接表明，Afzelin、Ononin、Glycitin、Emodin和Erythritol分别与AKT1、SRC、STAT3、HRAS、MAPK3、PIK3CA和PIK3R1结合良好。体外和体内实验表明，QLSTF可抑制细胞增殖，同时抑制PI3K-Akt信号通路，进一步证实了网络药理学策略和分子对接的预测。结论：QLSTF可能通过调节PI3K/AKT信号通路，抑制腺体增生发挥其治疗前列腺增生的作用。本研究为QLSTF治疗BPH的治疗靶点提供了有价值的见解。

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Verification of Qianlong Shutong Formula in the Treatment of Benign Prostatic Hyperplasia.

Aims: To investigate the mechanisms through which Qianlong Shutong Formula (QLSTF) exerts its effects on the management of benign prostatic hyperplasia (BPH).

Background: BPH is a prevalent condition among older men and poses significant management challenges due to the limited effectiveness and potential side effects associated with current treatment options. QLSTF, a traditional Chinese medicine, has been utilized in the treatment of BPH; however, its mechanism of action remains inadequately understood.

Objective: This study aimed to identify potential therapeutic targets of QLSTF for the management of BPH through the application of network pharmacology and subsequent experimental validation.

Methods: QLSTF compounds were identified utilizing liquid chromatography-mass spectrometry (LC-MS). Potential targets of QLSTF, as well as BPH-related targets, were retrieved from public databases. Crucial bioactive ingredients, potential targets, and signaling pathways were acquired through bioinformatics analysis, including protein-protein interaction (PPI), as well as the Gene Ontology (GO) and the Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis. Subsequently, molecular docking was carried out to predict the combination of active compounds with core targets. Lastly, in vitro and in vivo experiments were conducted to further verify the findings.

Results: A total of 52 bioactive ingredients of QLSTF and 760 QLSTF-BPH-related targets were screened. Bioinformatics analysis revealed that Afzelin, Ononin, Glycitin, Emodin and Erythritol may be potential candidate agents. AKT1, SRC, STAT3, GRB2, HRAS, MAPK3, PIK3CA, PIK3R1, HSP90AA1, and EP300 could become potential therapeutic targets. PI3KAKT signaling pathway might play an important role in QLSTF against BPH. Moreover, molecular docking suggested that Afzelin, Ononin, Glycitin, Emodin, and Erythritol combined well with AKT1, SRC, STAT3, HRAS, MAPK3, PIK3CA, and PIK3R1, respectively. In vitro and in vivo experiments showed that QLSTF could inhibit the proliferation of cells, as well as the PI3K-Akt signaling pathway, which further confirmed the prediction by network pharmacology strategy and molecular docking.

Conclusions: QLSTF may exert its therapeutic effects on BPH by modulating the PI3K/AKT signaling pathway and inhibiting glandular hyperplasia. This study offers valuable insights into the therapeutic targets of QLSTF in the management of BPH.

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来源期刊

Combinatorial chemistry & high throughput screening 化学-生化研究方法

CiteScore

3.10

自引率

5.60%

发文量

327

审稿时长

7.5 months

期刊介绍： Combinatorial Chemistry & High Throughput Screening (CCHTS) publishes full length original research articles and reviews/mini-reviews dealing with various topics related to chemical biology (High Throughput Screening, Combinatorial Chemistry, Chemoinformatics, Laboratory Automation and Compound management) in advancing drug discovery research. Original research articles and reviews in the following areas are of special interest to the readers of this journal: Target identification and validation Assay design, development, miniaturization and comparison High throughput/high content/in silico screening and associated technologies Label-free detection technologies and applications Stem cell technologies Biomarkers ADMET/PK/PD methodologies and screening Probe discovery and development, hit to lead optimization Combinatorial chemistry (e.g. small molecules, peptide, nucleic acid or phage display libraries) Chemical library design and chemical diversity Chemo/bio-informatics, data mining Compound management Pharmacognosy Natural Products Research (Chemistry, Biology and Pharmacology of Natural Products) Natural Product Analytical Studies Bipharmaceutical studies of Natural products Drug repurposing Data management and statistical analysis Laboratory automation, robotics, microfluidics, signal detection technologies Current & Future Institutional Research Profile Technology transfer, legal and licensing issues Patents.