ABSTRACT
To observe the contribution of FoxO1 on its downstream molecules expression and function in Jurkat cells,Jurkat cells were infected with FoxO1 expression lentivirus and interference lentivirus to establish FoxO1-KLF2-S1P1 signaling pathways mod-el.After infection of 120 h,FoxO1,KLF2,S1P1 and CD62L mRNA levels and the protein expression of FoxO1,FoxO1-p and KLF2 were increased (P<0.05) in FoxO1-overexpression group.Converse results(P<0.05) were observed in the interference group.The proportions of S1P1+cells were increased in both groups.It was notably that S1P1+cells were decreased(P<0.05) in interference group after infection of 72 h.The proportion of CD62L+cells was increased(P<0.05) in overexpression group,it was decreased(P<0.05) in the interference group.This vitro experiments showed S1P1 and CD62L could be regulated by FoxO1 lentivirus,and provided an experimental basis for research about intracellular FoxO1-KLF2-S1P1 signaling pathways and cellular functions.
ABSTRACT
[Abstract ] Objective The purpose of this study was to construct a short hairpin RNA (shRNA) interference lentiviral vector targeting the humanβ-COP gene and to evaluate its inhibitory effect on β-COP in THP-1 cells. Methods We designed and synthesized 4 humanβ-COP-specific oligonucleotide sequences and inserted them into the pGMLV-SC1 vector to construct a recombinant vector fol-lowed by transfection of HEK 293T cells with the recombinant vector and Lenti-HG Mix to produce lentiviruses and detect the viral con-tent.After infecting the THP-1 cells with the packaged lentiviruses , we analyzed the inhibitory effect of β-COP-shRNA on the β-COP gene by quantitative PCR and Western blot . Results Sequencing confirmed that the β-COP-specific oligonucleotide sequences were in-serted into the lentiviral vector and the lentiviruses were packaged in the transfected HEK 293T cells, with the final viral content of 1 × 109 TU/mL.Quantitative PCR showed that the 4 β-COP-shRNA vectors significantly decreased the mRNA expression of β-COP (P<0.01), with interference rates of 16.9 %,32.5%, 74.0%, and 50.3%, respectively.Western blot also indicated their inhibitory effect on the protein expression of β-COP, with an inhibition rate of 76.4% onβ-COP-shRNA3. Conclusion Lentiviral shRNA interference vectors targeting human β-COP were constructed successfully , which could suppress the expression of the human β-COP gene.