Abstract
Successful combination antiretroviral therapies (cART) eliminate active replicating HIV-1, slow down disease progression, and prolong lives. However, cART effectiveness could be compromised by the emergence of viral multidrug resistance, suggesting the need for new drug discoveries. The objective of this study was to further demonstrate the utility of the fission yeast cell-based systems that we developed previously for the discovery and testing of HIV protease (PR) inhibitors (PIs) against wild-type or multi-PI drug resistant M11PR that we isolated from an infected individual. All thirteen FDA-approved single-agent and fixed-dose combination HIV PI drugs were tested. The effect of these drugs on HIV PR activities was tested in pure compounds or formulation drugs. All FDA-approved PI drugs, except for a prodrug FPV, were able to suppress the wild-type PR-induced cellular and enzymatic activities. Relative drug potencies measured by EC50 in fission yeast were discussed in comparison with those measured in human cells. In contrast, none of the FDA-approved drugs suppressed the multi-PI drug resistant M11PR activities. Results of this study show that fission yeast is a reliable cell-based system for the discovery and testing of HIV PIs and further demonstrate the need for new PI drugs against viral multi-PI resistance.
Highlights
Infection of human immunodeficiency virus type 1 (HIV-1) continues to be a threat to global health
The expression of HIV-1 PR gene is under the control of a fission yeast nmt1 promoter [37,38], i.e., the HIV-1 PR protein is only produced after thiamine is removed from the minimal growth medium for at least 16 h post-gene induction [25]
Seven drugs represent the first-generation of protease inhibitors (PIs), including Saquinavir (SQV), Indinavir (IDV), Ritonavir (RTV), Nelfinavir (NFV), Amprenavir (APV), Fosamprenavir (FPV), and Lopinavir (LPV)
Summary
Infection of human immunodeficiency virus type 1 (HIV-1) continues to be a threat to global health. Drugs that target the host cells are CD4 inhibitor, CCR5 inhibitor, and pharmacokinetic enhancers. Note that unlike other antiretroviral drugs, pharmacokinetic enhancers do not interfere with viral replication but rather boost the drug efficacy by inhibiting host cytochrome P450 (CYPs) enzymes [1,3]. The most recent approved single-agent drug is Fostemsavir (Rukobia, ViiV Healthcare), which is a gp120 attachment inhibitor and the first-in-class drug [2]. It prevents HIV infection by blocking gp120 from infecting CD4positive cells. This drug covers people who are failing cART due to multidrug resistance
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