Construction of ShRNA lentiviral expression vector targeting APRIL gene in CFPAC1 cell of human pancreatic cancer
- VernacularTitle:胰腺癌CFPAC1细胞增殖诱导配体基因shRNA慢病毒表达载体的构建
- Author:
Lin CHEN
;
Feng WANG
;
Jianguo SHAO
;
Zhenbiao MAO
- Publication Type:Journal Article
- Keywords:
RNA interference;
Lentivirus;
APRIL;
Cell line,tumor
- From:
Chinese Journal of Pancreatology
2008;8(2):88-91
- CountryChina
- Language:Chinese
-
Abstract:
Objective To construct of shRNA lentiviral expression vector targeting APRIL (aproliferation-inducing ligand) gene in CFPAC-1 cell of human pancreatic cancer. Methods We used gene engineering to screen RNA interference targeting sequence of APRIL gene. The complementary DNA containing both sense and antisense Oligo DNA of the targeting sequence was designed, synthesized and cloned into the pGCL-GFP vector. The resulting lentiviral vector containing shAPRIL were named LV-shAPRIL. Then it was conformed by PCR and DNA sequencing identification. 293T cells were eotransfected with LV-shAPRIL,pHelper 1.0 and pHelper 2.0 to product ientivirus. The titer of virus was tested according to the expression level of GFP in the 293T cells. After recombinant lentivirus infection into CFPAC-1 cells, we used real-time RT-PCR and Western blotting to examine APRIL mRNA and protein expression at different cell culture period.Results PCR analysis and DNA sequencing conformed that shAPRIL DNA was successfully inserted into the lentiviral vector. The titer of concentrated virus were 5 × 107 TU/ml. APRIL expression in CFPAC-1 cells were inhibited significantly at both mRNA and protein level. APRIL mRNA expression were decreased 73%, 70%and 71% , respectively, after the infection of 4 days, 4 weeks and 8 weeks by LV-shAPRIL. APRIL protein expression were decreased 66%, 63% and 62%, respectively , after the infection of 4 days , 4 weeks and 8weeks by LV-shAPRIL. Conclusions ShRNA lentiviral expression vector targeting APRIL gene has been successully constructed, and it can effectively inhibit the expression of APRIL gene in CFPAC-1 ceils. This study lays a foundatin for in vivo research APRIL gene scilence in pancreatic cancer cell using the model of nude mice.
