Litcius/Paper detail

Systematic exploration of therapeutic effects and key mechanisms of Panax ginseng using network-based approaches

Young Woo Kim, Seon Been Bak, Yu Rim Song, Chang-Eop Kim, Won-Yung Lee

2024Journal of Ginseng Research13 citationsDOIOpen Access PDF

Abstract

Background: Network pharmacology has emerged as a powerful tool to understand the therapeutic effects and mechanisms of natural products. However, there is a lack of comprehensive evaluations of network-based approaches for natural products on identifying therapeutic effects and key mechanisms. Purpose: is a widely used herb with a variety of therapeutic benefits, but its active ingredients and mechanisms of action on chronic diseases are not yet fully understood. Methods: by collecting and integrating data on ingredients, protein targets, and known indications. We then evaluated the performance of different network-based methods for summarizing known and unknown disease associations. The predicted results were validated in the hepatic stellate cell model. Results: We find that our multiscale interaction-based approach achieved an AUROC of 0.697 and an AUPR of 0.026, which outperforms other network-based approaches. As a case study, we further tested the ability of multiscale interactome-based approaches to identify active ingredients and their plausible mechanisms for breast cancer and liver cirrhosis. We also validated the beneficial effects of unreported and top-predicted ingredients, in cases of liver cirrhosis and gastrointestinal neoplasms. Conclusion: our study provides a promising framework to systematically explore the therapeutic effects and key mechanisms of natural products, and highlights the potential of network-based approaches in natural product research.

Topics & Concepts

GinsengKey (lock)Computer scienceNatural (archaeology)Computational biologyPharmacologyTraditional medicineMedicineBiologyAlternative medicineComputer securityPaleontologyPathologyGinseng Biological Effects and ApplicationsComputational Drug Discovery MethodsBioinformatics and Genomic Networks