The present study aims to explore the effects of p53 and its target gene Rap2B on the autophagy of U2OS cells.U2OS cells were treated with siRNA against p53,Rap2B,and PLCε.Relative expressions of p53,Rap2B,and PLCεw...The present study aims to explore the effects of p53 and its target gene Rap2B on the autophagy of U2OS cells.U2OS cells were treated with siRNA against p53,Rap2B,and PLCε.Relative expressions of p53,Rap2B,and PLCεwere determined using quantitative polymerase chain reaction(qPCR)and Western blotting,respectively.Levels of IP3 in the cells were determined using Enzyme-linked Immunosorbent Assay(ELISA).Levels of Ca^(2+) were detected using Flow cytometry.Fluorescence microscopy was used to observe the autophagy of cells.Knockdown of p53 significantly decreased the expressions of Rap2B protein.Additionally,knockdown of p53 significantly decreased the mRNA levels of PLCε.The knockdown of p53,Rap2B,and PLCεsignificantly decreased the levels of intracellular IP3 and Ca^(2+) and promoted autophagy of U2OS cells.Our results demonstrated that p53-Rap2B-PLCε-IP3 signaling pathway regulated autophagy of U2OS cells.展开更多
文摘The present study aims to explore the effects of p53 and its target gene Rap2B on the autophagy of U2OS cells.U2OS cells were treated with siRNA against p53,Rap2B,and PLCε.Relative expressions of p53,Rap2B,and PLCεwere determined using quantitative polymerase chain reaction(qPCR)and Western blotting,respectively.Levels of IP3 in the cells were determined using Enzyme-linked Immunosorbent Assay(ELISA).Levels of Ca^(2+) were detected using Flow cytometry.Fluorescence microscopy was used to observe the autophagy of cells.Knockdown of p53 significantly decreased the expressions of Rap2B protein.Additionally,knockdown of p53 significantly decreased the mRNA levels of PLCε.The knockdown of p53,Rap2B,and PLCεsignificantly decreased the levels of intracellular IP3 and Ca^(2+) and promoted autophagy of U2OS cells.Our results demonstrated that p53-Rap2B-PLCε-IP3 signaling pathway regulated autophagy of U2OS cells.