Background and Objective:
Qishen Yiqi formula (QSYQ) is used to treat cardiovascular disease in the clinical
practice of traditional Chinese medicine. However, few studies have explored whether QSYQ affects pulmonary arterial hypertension (PAH), and the mechanisms of action and molecular targets of QSYQ for the treatment of PAH are unclear. A
bioinformatics/network topology-based strategy was used to identify the bioactive ingredients, putative targets, and molecular mechanisms of QSYQ in PAH.
Methods:
A network pharmacology-based strategy was employed by integrating active component gathering, target prediction, PAH gene collection, network topology, and gene enrichment analysis to systematically explore the multicomponent
synergistic mechanisms.
Results:
In total, 107 bioactive ingredients of QSYQ and 228 ingredient targets were identified. Moreover, 234 PAH-related
differentially expressed genes with a |fold change| >2 and an adjusted P value < 0.005 were identified between the PAH patient and control groups, and 266 therapeutic targets were identified. The pathway enrichment analysis indicated that 85
pathways, including the PI3K-Akt, MAPK, and HIF-1 signaling pathways, were significantly enriched. TP53 was the core
target gene, and 7 other top genes (MAPK1, RELA, NFKB1, CDKN1A, AKT1, MYC, and MDM2) were the key genes in
the gene-pathway network based on the effects of QSYQ on PAH.
Conclusion:
An integrative investigation based on network pharmacology may elucidate the multicomponent synergistic
mechanisms of QSYQ in PAH and lay a foundation for further animal experiments, human clinical trials and rational clinical applications of QSYQ.
Pulmonary hypertension (PH) is characterized by progressive vasoconstriction and pulmonary artery remodelling. 1 Uncontrolled expansion of pulmonary artery smooth muscle cells (PASMCs), pulmonary vascular endothelium damage and excessive extracellular matrix deposition are the common pathological hallmarks of PH. 2 Despite the availability of treatments that provide symptomatic relief, till date, there has been no effective treatment for PH. Thus, there is still an urgent need to find possible regulatory targets to develop effective anti-PH agents.Fibroblast growth factor 21 (FGF21) is a member of the family of endocrine fibroblast growth factors, whose beneficial effects on
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