Background:Diabetic nephropathy(DN)is a serious complication of diabetes with rising prevalence worldwide.We aimed to explore the anti-DN mechanisms of the compound celastrol derived from the medicinal plant Tripteryg...Background:Diabetic nephropathy(DN)is a serious complication of diabetes with rising prevalence worldwide.We aimed to explore the anti-DN mechanisms of the compound celastrol derived from the medicinal plant Tripterygium wilfordii.Methods:Celastrol-related targets were obtained from Herbal Ingredients’Targets(HIT)and GeneCards databases.DN-related targets were retrieved from GeneCards,DisGeNET,and Therapeutic Targets Database(TTD).A Protein-protein interaction(PPI)network was established using the Search Tool for the Retrieval of Interacting Genes(STRING)database.Gene Ontology(GO)and Kyoto Encyclopedia of Genes and Genomes(KEGG)enrichment analyses were performed using ClusterProfiler.The cytoHubba plugin was used to select the top 10 hub targets.Molecular docking was performed employing PyMOL and AutoDock software.Cell counting kit-8(CCK-8)and flow cytometry assays were used to detect the viability and apoptosis of NRK-52E cells,respectively.The mRNA expression levels of mitogen-activated protein kinase 3(MAPK3),tumor necrosis factor(TNF),and AKT serine/threonine kinase 1(AKT1)in NRK-52E cells were assessed using quantitative real-time polymerase chain reaction(qRT-PCR).Results:We obtained sixty-six overlapping targets of celastrol and DN.GO and KEGG analyses demonstrated that the core targets of celastrol and DN were mainly involved in the inflammatory and immune response,oxidative stress,advanced glycation end products(AGEs)and their receptors(RAGEs)(AGE-RAGE),TNF,interleukin 17(IL-17),and MAPK signaling pathways.Finally,based on the good binding activity with celastrol,MAPK3,TNF,and AKT1 were identified as the foremost targets of celastrol.We observed that celastrol enhanced the viability of high glucose(HG)-treated NRK-52E cells and inhibited apoptosis in the in vitro assays.Moreover,celastrol decreased the mRNA expression levels of MAPK3,TNF,and AKT1 in high glucose(HG)-treated NRK-52E cells.Conclusion:Celastrol may treat DN by targeting APK3,TNF,and AKT1 and regulating inflammatory responses and oxidative stress through the AGE-RAGE,TNF,IL-17,and MAPK signaling pathways.展开更多
基金supported by the Zhejiang Province Chinese Medicine Modernization Program Grant[Number 2020ZX001]the“Pioneer”and“Leading Goose”R&D Program of Zhejiang Grant[Number 2023C03075].
文摘Background:Diabetic nephropathy(DN)is a serious complication of diabetes with rising prevalence worldwide.We aimed to explore the anti-DN mechanisms of the compound celastrol derived from the medicinal plant Tripterygium wilfordii.Methods:Celastrol-related targets were obtained from Herbal Ingredients’Targets(HIT)and GeneCards databases.DN-related targets were retrieved from GeneCards,DisGeNET,and Therapeutic Targets Database(TTD).A Protein-protein interaction(PPI)network was established using the Search Tool for the Retrieval of Interacting Genes(STRING)database.Gene Ontology(GO)and Kyoto Encyclopedia of Genes and Genomes(KEGG)enrichment analyses were performed using ClusterProfiler.The cytoHubba plugin was used to select the top 10 hub targets.Molecular docking was performed employing PyMOL and AutoDock software.Cell counting kit-8(CCK-8)and flow cytometry assays were used to detect the viability and apoptosis of NRK-52E cells,respectively.The mRNA expression levels of mitogen-activated protein kinase 3(MAPK3),tumor necrosis factor(TNF),and AKT serine/threonine kinase 1(AKT1)in NRK-52E cells were assessed using quantitative real-time polymerase chain reaction(qRT-PCR).Results:We obtained sixty-six overlapping targets of celastrol and DN.GO and KEGG analyses demonstrated that the core targets of celastrol and DN were mainly involved in the inflammatory and immune response,oxidative stress,advanced glycation end products(AGEs)and their receptors(RAGEs)(AGE-RAGE),TNF,interleukin 17(IL-17),and MAPK signaling pathways.Finally,based on the good binding activity with celastrol,MAPK3,TNF,and AKT1 were identified as the foremost targets of celastrol.We observed that celastrol enhanced the viability of high glucose(HG)-treated NRK-52E cells and inhibited apoptosis in the in vitro assays.Moreover,celastrol decreased the mRNA expression levels of MAPK3,TNF,and AKT1 in high glucose(HG)-treated NRK-52E cells.Conclusion:Celastrol may treat DN by targeting APK3,TNF,and AKT1 and regulating inflammatory responses and oxidative stress through the AGE-RAGE,TNF,IL-17,and MAPK signaling pathways.
