Objective: To investigate a dysregulation of Notch signaling in oral lichen planus(OLP)using public available microarray dataset.Methods: A m RNA expression profiling dataset from Gene Expression Omnibus was downloade...Objective: To investigate a dysregulation of Notch signaling in oral lichen planus(OLP)using public available microarray dataset.Methods: A m RNA expression profiling dataset from Gene Expression Omnibus was downloaded. Differential gene expression between OLP and normal oral epithelium was examined using Network Analyst. The dysregulated genes related to Notch signaling were identified.Results: Thirteen genes in Notch signaling pathway were significantly differential expressed between OLP and normal epithelium. OLP samples significantly increased the m RNA levels of HEYL, APH1 B, CNTN1 and PSEN2. Whilst, ITCH, HES1, TLE2, DLK2,DTX2, NOTCH3, JAG2, RFNG, and SPEN were downregulated in OLP groups.Conclusions: Notch signaling was dysregulated and may participate in pathophysiologic process in OLP.展开更多
基金supported by the Rachadapisek Sompote Fund for Postdoctoral Fellowship,Chulalongkorn University
文摘Objective: To investigate a dysregulation of Notch signaling in oral lichen planus(OLP)using public available microarray dataset.Methods: A m RNA expression profiling dataset from Gene Expression Omnibus was downloaded. Differential gene expression between OLP and normal oral epithelium was examined using Network Analyst. The dysregulated genes related to Notch signaling were identified.Results: Thirteen genes in Notch signaling pathway were significantly differential expressed between OLP and normal epithelium. OLP samples significantly increased the m RNA levels of HEYL, APH1 B, CNTN1 and PSEN2. Whilst, ITCH, HES1, TLE2, DLK2,DTX2, NOTCH3, JAG2, RFNG, and SPEN were downregulated in OLP groups.Conclusions: Notch signaling was dysregulated and may participate in pathophysiologic process in OLP.