Establishment of evaluation system for a cell-based arenavirus entry inhibitor / 药学学报

Arenaviruses are enveloped RNA viruses. The genus mammarenavirus contains nine members that are known to be human pathogens, and eight of them cause human hemorrhagic fever. Lassa hemorrhagic fever, caused by Lassa virus (LASV) infection, is the most prevalent arenavirus hemorrhagic fever with potential to cause major epidemics. LASV belongs to category A agents, and biosafety level-4 (BSL-4) facility is required for live virus experiments. Currently there are few specific treatments available for arenavirus diseases. Here, we established efficient cell-based pseudovirus infection models using an HIV-1 core (pNL4-3.Luc.R-E-) packed with arenavirus glycoproteins. Nine recombinant arenaviruses (arenavirus-GP/HIV-luc) were generated, and 17 cell lines were tested for susceptibilities to these viruses. These pseudovirus infection models were further validated by known arenavirus entry inhibitors. The models are safe and specific to pseudovirus infection, which are readily used for pharmacodynamic evaluation of arenavirus entry inhibitors in BSL-2 laboratory. The models will facilitate screening of the anti-arenavirus drugs and vaccines.

The in vitro HAART pharmacodynamics study with dolutegravir as the "anchor" / 药学学报

This study is to evaluate the HAART pharmacodynamics with dolutegravir as the "anchor" in vitro. A nucleoside reverse transcriptase inhibitors (NRTIs) resistant recombinant virus model (VSVG/HIV-1(RT-D67N,K70R,T215F)) and an integrase inhibitors (INIs) resistant recombinant virus model (VSVG/HIV-1(IN-G140S,QI48H)) were constructed and established. The anti-viral pharmacodynamics was evaluated with drug combinations including two NRTIs along with one INI or one NNRTI. The results showed that the combination with an INI gave a stronger synergism on wild type HIV-1 replication comparing to that with an NNRTI. Comparing the two INIs as the "anchor" for HAART, DTG exhibited an equivalent CI to that of RAL on wild type HIV-1 replication; but a greater synergy than RAL on INI-resistant HIV-1 replication. Besides of the pharmacodynamics results of DTG-based drug combination, the results may contribute to clinical antiviral therapy.