Frontiers in Neurology (Mar 2023)

Potential molecular mechanisms of Erlongjiaonang action in idiopathic sudden hearing loss: A network pharmacology and molecular docking analyses

  • He Zhao,
  • He Zhao,
  • He Zhao,
  • Yan Wang,
  • Yan Wang,
  • Yan Wang,
  • Cong Xu,
  • Cong Xu,
  • Cong Xu,
  • Guangjin Li,
  • Guangjin Li,
  • Guangjin Li,
  • Yuwan Song,
  • Yuwan Song,
  • Jingjing Qiu,
  • Jingjing Qiu,
  • Limei Cui,
  • Limei Cui,
  • Xicheng Song,
  • Xicheng Song,
  • Yujuan Yang,
  • Yujuan Yang,
  • Yan Sun,
  • Yan Sun

DOI
https://doi.org/10.3389/fneur.2023.1121738
Journal volume & issue
Vol. 14

Abstract

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BackgroundIdiopathic sudden hearing loss (ISHL) is characterized by sudden unexplainable and unilateral hearing loss as a clinically emergent symptom. The use of the herb Erlongjiaonang (ELJN) in traditional Chinese medicine is known to effectively control and cure ISHL. This study explored the underlying molecular mechanisms using network pharmacology and molecular docking analyses.MethodThe Traditional Chinese Medicine System Pharmacological database and the Swiss Target Prediction database were searched for the identification of ELJN constituents and potential gene targets, respectively, while ISHL-related gene abnormality was assessed using the Online Mendelian Inheritance in Man and Gene Card databases. The interaction of ELJN gene targets with ISHL genes was obtained after these databases were cross-screened, and a drug component–intersecting target network was constructed, and the gene ontology (GO) terms, Kyoto Encyclopedia of Genes and Genomes, and protein–protein interaction networks were analyzed. Cytoscape software tools were used to map the active components–crossover target–signaling pathway network and screened targets were then validated by establishing molecular docking with the corresponding components.ResultErlongjiaonang contains 85 components and 250 corresponding gene targets, while ISHL has 714 disease-related targets, resulting in 66 cross-targets. The bioinformatical analyses revealed these 66 cross-targets, including isorhamnetin and formononetin on NOS3 expression, baicalein on AKT1 activity, and kaempferol and quercetin on NOS3 and AKT1 activity, as potential ELJN-induced anti-ISHL targets.ConclusionThis study uncovered potential ELJN gene targets and molecular signaling pathways in the control of ISHL, providing a molecular basis for further investigation of the anti-ISHL activity of ELJN.

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