关键词: 四环素, 基因表达调控, β-半乳糖苷酶基因, HepG2细胞

Abstract: Abstract:Objective To construct the vector for β-galactosidase (β-gal) gene expression regulation with tetracycline-regulated gene expression system,and to control β-galactosidase gene expression in hepG2 cells with the vector.So that offer a experimental base for regulating gene expression for liver cancer gene therpy with this system.Methods The primers for explanding two tetracycline operator (TetO2) gene according to the gene nucleotide sequences of TetO2 gene and pcDNA3.1 vector were designed.TetO2 gene was amplified by PCR with pcDNA3.1 plasmid as template.The TetO2 PCR products were cloned into pcDNA3.1 and the vector was named as pcDNA3.1-TetO2.The pcDNA3.1-Teto2 with TetO2 PCR products sequence was analyzed by ABI3130 sequencing analysis.Then β-gal gene was cloned into pcDNA3.1-TetO2,the vector was named as pcDNA3.1-TetO2-β-gal.The pcDNA6/TR plasmid vector with tetracycline repressor(TR) was transfected into HepG2 cells by Lipotap,and the stable transfection cells were screened by blasticidin.TR gene expression was detected by RT-PCR in HepG-2 cells with and without pcDNA6/TR plasmid transfection.The pcDNA3.1-TetO2-β-gal plasmid vector was transfected into HepG2 cells with and without pcDNA6/TR plasmid transfection,and 3 to 4 d later, these transfected gene cells were treated with doxycline（4 mg•L^-1）.After 48 h,β-gal gene expression was detected with β-gal cell staining.Results The pcDNA3.1-TetO2 sequencing analysis results showed that a cassette was made for a cytomegalovirus-type 2 tetracycline operator (TetO2)-TetO2 promoter in pcDNA3.1-Teto2.The double digestion reslut of pcDNA3.1-TetO2-β-gal plasmid vector demonstrated that β-gal gene was successfully cloned into pcDNA3.1-TetO2 vector .The RT-PCR result of TR gene showed TR gene could be expressed in HepG2 cells with pcDNA6/TR plasmid transfection and TR gene didn’t express in HepG2 cells without pcDNA6/TR plasmid transfection.β-gal gene expressed in HepG2 cells without pcDNA6/TR plasmid transfection,but didn’t express in HepG2 cells with pcDNA6/TR plasmid transfection.However,β-gal gene expression could be induced with doxycline in HepG2 cells with pcDNA6/TR plasmid transfection. Conclusion The tetracycline-regulated gene expression system vector for regulating β-gal gene expression is successfully constructed and the vector system can control β-gal gene expression in HepG2 cells.

Key words: tetracycline, gene expression regulation, β-galactosidase gene, HepG2 cells