Objectives:Setarud (IMOD™) is a herbal medicine with beneficial effect for patients suffering Human immunodeficiency virus (HIV) infection and has been approved for IV (intra venues) injection. The beneficial effect of IMOD administration for acquired immune deficiency syndrome (AIDS) patient has been proved in previous clinical trials. Here the in vitro inhibitory effect of IMOD against HIV-1, Herpes simplex virus (HSV) and murine leukemia viruses (MLV) was evaluated.Materials and Methods:HIV single cycle replication and HSV plaque reduction assays were used to evaluate the anti-viral effect. The level of HIV replication was monitored by p24 capture Enzyme-linked immunosorbent assay (ELISA). The single round infection [with green fluorescent protein (GFP) reporter MLV and HIV], virucidal and time-of-additions (HSV) assays were utilized to determine the mode of anti-viral activity. The toxicity of IMOD for cells was monitored by XTT (sodium 3_-[1 (phenylaminocarbonyl)- 3,4-tetrazolium]-bis (4-methoxy-6-nitro)benzene sulfonic acid) cell proliferation assay kit.Results:IMOD inhibited 50% of HIV-1 and HSV replication (IC50) at 6.5 × 10-4 and 4.3 × 10-3V/V concentrations, respectively. The IC50 value against HIV-1 and MLV infection were 6 × 10-4V/V and 4.9 × 10-4V/V. Virucidal assay showed that IMOD reduces the potency of HIV and HSV particles to 41 and 54% of control, respectively. Time-of-addition study revealed that IMOD inhibits the replication of HSV at a stage after penetration of virions to the target cells.Conclusions:Data from this study indicate that IMOD has significant anti-viral activity against HIV, HSV and MLV. Setarud could be subjected to further investigation after isolation of the constituents and determination of the toxic components.
Inactivation ofintegrase and reverse transcriptase can revoke the replication of HIV virions, and non-infectious HIV particles are desirable virus-like particle (VLP) vaccine candidates. Here, we produced inactive in replication HIV-1 particles fit for vaccine and virological purposes by introducing a mutation into the pol sequence. Proviral DNA (pNLA-3) was cut at two points in the pol region using the Bal I restriction enzyme and then religated. HEK 293T cells were transfected with the resultant plasmid (pmzNL4-3) to produce mutated virions. To confirm a production of VLPs and evaluate their biological activity the p24 load and syncytium formation (MT2 cells) were analyzed. The assay indicated that mzNL4-3 virions were assembled and contained functional envelope glycoproteins (ENV). In addition, mzNL4-3 virions were not able to infect MT2 and HEK 293T cells. Furthermore, the immunogenicity of VLPs was investigated in a mouse model. According to the data on vaccinated mice, the titer of ENV-specific antibodies rose rapidly after a boosting injection. Moreover, lymphoid cells extracted from these mice proliferated after exposure to the antigen. The mzNL4-3 virus particles possessed immunogenic antigens of HIV and can effectively trigger humoral and CD4 immune responses. Non-infectious mzNL4-3 virions may also be used in biomedical experiments to improve the biological safety conditions. Moreover, the mzNL4-3 seems to be a promising candidate for further HIV-1 vaccine investigations.
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