Получение и иммунологические характеристики неинфекционного ВИЧ-1 клона mzNL4-3 с большой делецией вpol-последовательности

Abstract

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.