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Using Bcl-xL anti-apoptotic protein for altering target cell apoptosis
İz, Sultan Gülçe; Çalımlıoğlu, Beste & Deliloğlu Gürhan, Saime İsmet
Abstract
Background: Altering target cell apoptosis is one of the challenging ideas of biotechnological
applications. There are several applications of over expressing Bcl-xL anti-apoptotic protein from
recombinant protein production to DNA vaccination strategies. The aim of the present study is to
evaluate the anti-apoptotic efficacy of Bcl-xL expressing dual promoter plasmid system as a candidate
to be used for recombinant protein production and DNA vaccination approaches. For this purpose, BclxL
anti-apoptotic protein gene was inserted in a dual expressing vector system in frame with EGFP
(enhanced green fluorescence protein) after IRES (internal ribosomal site). The plasmid has a multiple
cloning site after CMV (cytomegalovirus promoter) left empty to be inserted a biopharmaceutical
protein gene region or DNA vaccine antigens. Results: In order to determine the anti-apoptotic efficacy
of Bcl-xL inserted dual expressing vector, BHK-21 cells were transfected both with this plasmid and
empty vector as control. Apoptosis was stimulated by several apoptosis inducing agents and serum
deprivation in the transfected cells for 48 hrs. Cells expressing Bcl-xL protein in frame with EGFP were
determined by flow cytometry as an indicator of cell viability. Additionally, apoptosis were determined
by intracellular cleaved Casp 3 staining in Bcl-xL expressing EGFP positive cells. The dual expression
plasmid bearing Bcl-xL anti-apoptotic protein prolonged the cell survival rate and protected cells from
apoptosis upon apoptosis induction by doxorubicin and camptothecin in which the anti-apoptotic
efficacies are inhibited through over expressing of Bcl-xL. pIRES2EGFP/Bcl-xL transfected cell ratio
was significantly higher compared to empty vector transfected cells (P < 0.001). In contrast, apoptotic
cell ratio was significantly lower in pIRES2EGFP/Bcl-xL transfected cell population compared to empty
vector transfected cells (P < 0.001). Conclusion:In conclusion, it was shown that in vitro transient
expression of Bcl-xL efficiently inhibited apoptosis induced by serum deprivation, doxorubicin and
camptothecin. Thus, the dual expression plasmid bearing Bcl-xL anti-apoptotic protein could be a good
candidate for recombinant protein production and DNA vaccination applications.
Keywords
animal cell biotechnology; apoptosis; Bcl-xL anti-apoptotic protein
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