Establishment of a humanized mouse model of HIV-1 infection and quantification of integrated HIV proviral DNA in vivo

Abstract

In recent years, virological, pathological, and immunological studies need to be carried out for the emerging anti-human immunodeficiency virus (HIV) therapies such as gene therapy, broadly neutralizing antibodies, and the derived chimeric antigen receptor (CAR)-T immunotherapy, which necessitates suitable, simple, and inexpensive small-animal models and methods for accurate quantification of the viral genome in the HIV-1 infected. In our research, the HIV-∆ENV-Jurkat-EGFP-mCherry cell line was engineered through the infection with a dual-labelled HIV pseudovirus. A nested quantitative PCR (nested-qPCR) method with the cellular genome as the integrated standard was established for the quantification of HIV proviral copies. We administered intravenous injections of healthy human peripheral blood mononuclear cell (PBMC) into NOD/Prkdcscid/IL2rgnull (NPG) mice. To verify engraftment kinetics, we analyzed the percentages of hCD45+, hCD3+, hCD4+, and hCD8+ cells in the peripheral blood of hu-PBMC-NPG mice. To evaluate HIV-1 infection in hu-PBMC-NPG mice, we inoculated these mice with HIV NL4-3-NanoLuc by intraperitoneal (IP) injection. We then monitored the luciferase expression by the small animal imaging system and measured the viral load in the spleen by qPCR. The infiltration of human PBMCs in mice was detected 3-5 weeks after intravenous injection, and the percentage of hCD45 in humanized mouse PBMCs were more than 25% five weeks after IP inoculation. The expression of the virus-associated luciferase protein was detected by luciferase imaging 27 days post infection. Moreover, the viral total DNA, RNA, and proviral DNA copies reached 18 000 copies/106 cells, 15 000 copies/μg RNA, and 15 000 copies/106 cells, respectively, in the mouse spleen. Taken together, we reported a convenient method for building a simple humanized mouse model of HuPBMC-NPG/severe combined immunodeficiency (SCID) by intravenous injection with hu-PBMCs without advanced surgical skills and irradiation. Furthermore, we established a convenient method for the efficient determination of proviral DNA to assess HIV replication in vivo, viral reservoir sizes, and efficacy of novel anti-HIV therapies including CAR-T immunotherapy and gene therapy.