Comparison of transfection efficiency of polymer-based and lipid-based transfection reagents.

OBJECTIVES: In this study, the optimal dose of Lipofectamine 3000 and Turbofect to transfect adherent cell lines such as CHO-K1 and HEK293 cells in comparison with non-adherent H9T-cells with pEGFP-N1 and pCDH was identified. BACKGROUND: Lipofectamine 3000 is a new transfection reagent which is claimed to be more efficient than other transfection reagents like Turbofect. Transfection efficiency could be affected by the nature of target cell line and vector. METHODS: Transfection efficiency and cytotoxicity of each reagent was identified by using flow cytometry and XTT assay, respectively. RESULTS: Lipofectamine 3000 was more efficient in transfecting pCDH, while Turbofect was more efficient in separate transfection of CHO-K1 and HEK293 with pEGFP-N1. Lipofectamine 3000 could be cytotoxic in transfecting H9T-cells with pCDH. Also, H9T-cells were not sufficiently transfected with each plasmid vector by using each Lipofectamine 3000 and Turbofect. Turbofect had less cytotoxicity effect on all three cell lines than Lipofectamine 3000.Transfection of suspended cells like H9T-cells by using Lipofectamine 3000 and Turbofect would not result in sufficient transfection. CONCLUSION: Lipofectamine 3000 is the best choice for transfection of CHO-K1 and HEK293 with pCDH while Turbofect is preferably used in transfecting these cell lines with pEGFP-N1 (Tab. 1, Fig. 2, Ref. 26).

Evaluation of the in vitro antiretroviral potential of some Biginelli-type pyrimidines.

Despite the success of highly active antiretroviral therapy, AIDS still remains as one of the most important world health problems. Toxicity of current available drugs and inevitable emergence of multi-drug resistant strains makes things worse. In the present study a series of novel Biginelli-type pyrimidine compounds were evaluated as potential anti-human immunodeficiency virus (HIV)-1 agents using green fluorescence protein (GFP) reporter single round HIV-1 infection assay. The rate of infected cells was monitored by flowcytometry. The effect of compounds on the cellular proliferation was considered as the cyotoxicity. The anti-HIV-1 active compounds were selected for HIV-1 replication and syncytium formation assays. The antiretroviral activity of compounds was measured against luciferase reporter A murine leukemia virus (AMLV) virions as the retrovirus control. Compounds 2, 5, 6, 8, 11, 12, 13, 17, 18, 20, and 21 were the most potent against HIV-1. Compound 8 had the 50% inhibitory concentration (IC50) of 100 nmol/l for inhibiting HIV-1 replication and 50% cytotoxic concentration (CC50) was up to 100 µmol/l (therapeutic index (TI) >1000). Results show that the active compounds were able to inhibit the retrovirus control as well. Analysis of structure of the studied compounds proved relationships with their anti-HIV-1 effects. Some of the studied compounds seem to be promising anti-HIV-1 drug candidates. Structural manipulation based on the well-defined structure-activity relationships might propose some new leads for anti-HIV-1 drug discovery programs.

Optimization of transfection methods for Huh-7 and Vero cells: comparative study.

Availability of an efficient transfection protocol is the first determinant in success of gene transferring studies in mammalian cells which is accomplished experimentally for every single cell type. Herein, we provide data of a comparative study on optimization of transfection condition by electroporation and chemical methods for Huh-7 and Vero cells. Different cell confluencies, DNA/reagent ratios and total transfection volumes were optimized for two chemical reagents including jetPEI and Lipofectamine 2000. Besides, the effects of electric field strength and pulse length were investigated to improve electroporation efficiency. Transfection of cells by pEGFP-N1 vector and tracking the expression of GFP by FACS and Fluorescence Microscopy analysis were the employed methods to evaluate transfection efficiencies. Optimized electroporation protocols yielded 63.73 +/- 2.36 and 73.9 +/- 1.6% of transfection in Huh-7 and Vero cells respectively, while maximum achieved level of transfection by jetPEI was respectively 14.2 +/- 0.69 and 28 +/- 1.11% for the same cells. Post transfectional chilling of the cells did not improve electrotransfection efficiency of Huh-7 cells. Compared to chemical based reagents, electroporation showed the superior levels of transfection in both cell lines. The presented protocols should satisfy most of the experimental applications requiring high transfection efficiencies of these two cell lines.

Optimization of transfection methods for Huh-7 and Vero cells: A comparative study.

Availability of an efficient transfection protocol is the first determinant in success of gene transferring studies in mammalian cells which is accomplished experimentally for every single cell type. Herein, we provide data of a comparative study on optimization of transfection condition by electroporation and chemical methods for Huh-7 and Vero cells. Different cell confluencies, DNA/reagent ratios and total transfection volumes were optimized for two chemical reagents including jetPEI™ and Lipofectamine™ 2000. Besides, the effects of electric field strength and pulse length were investigated to improve electroporation efficiency. Transfection of cells by pEGFP-N1 vector and tracking the expression of GFP by FACS and Fluorescence Microscopy analysis were the employed methods to evaluate transfection efficiencies. Optimized electroporation protocols yielded 63.73 ± 2.36 and 73.9 ± 1.6% of transfection in Huh-7 and Vero cells respectively, while maximum achieved level of transfection by jetPEI™ was 14.2 ± 0.69 and 28 ± 1.11% Huh-7 and Vero cells, respectively. Post transfectional chilling of the cells did not improve electrotransfection efficiency of Huh-7 cells. Compared to chemical based reagents, electroporation showed superior levels of transfection in both cell lines. The presented protocols should satisfy most of the experimental applications requiring high transfection efficiencies of these two cell lines.

Development of single-cycle replicable human immunodeficiency virus 1 mutants.

Non-infectious but antigenic human immunodeficiency virus 1 (HIV-1) particles are essential tool for the research on many topics associated with this virus. Here we report the construction of plasmid containing the HIV-1 genome mutated in the pol gene, which was co-transfected with plasmids expressing the pol gene products reverse transcriptase (RT) and integrase (IN), and the glycoprotein G of vesicular stomatitis virus (VSV-G). The virions produced in HEK 293 T cells were antigenic, but able to replicate only for one cycle, e.g. first generation single-cycle replicable (SCR) virions. The presence of VSV-G in the envelope of these virions had to ensure a wider spectrum of susceptible cell types for the replication of SCR. Replication of the first generation SCR virions in HEK 293T, MT-2, and mouse spleen cells was examined by p24-capture ELISA, syncytium formation assay, and electron microscopy (EM). HEK 293T and MT-2 cell lines showed a similar replication capacity, while primary cultures of mouse spleen cells were much less effective. The infection of MT-2 cells with the first generation of SCR virions yielded the second generation SCR virions, which were non-infectious. Summing up, the HIV-1 SCR virions represent the useful tool for HIV-1 research facilitating a better biological safety. Moreover, considering their antigenic composition and limited replication, SCR virions may be a promising candidate for the vaccine studies.