Promiscuous, Multi-Target Lupane-Type Triterpenoids Inhibits Wild Type and Drug Resistant HIV-1 Replication Through the Interference With Several Targets
Fecha
2018Resumen
Current research on antiretroviral therapy is mainly focused in the development of
new formulations or combinations of drugs belonging to already known targets.
However, HIV-1 infection is not cured by current therapy and thus, new approaches
are needed. Bevirimat was developed by chemical modification of betulinic acid, a
lupane-type pentacyclic triterpenoid (LPT), as a first-in-class HIV-1 maturation inhibitor.
However, in clinical trials, bevirimat showed less activity than expected because of
the presence of a natural mutation in Gag protein that conferred resistance to a high
proportion of HIV-1 strains. In this work, three HIV-1 inhibitors selected from a set of
previously screened LPTs were investigated for their targets in the HIV-1 replication
cycle, including their maturation inhibitor effect. LPTs were found to inhibit HIV-1 infection
acting as promiscuous compounds with several targets in the HIV-1 replication cycle.
LPT12 inhibited HIV-1 infection mainly through reverse transcription, integration, viral
transcription, viral proteins (Gag) production and maturation inhibition. LPT38 did it
through integration, viral transcription or Gag production inhibition and finally, LPT42
inhibited reverse transcription, viral transcription or Gag production. The three LPTs
inhibited HIV-1 infection of human primary lymphocytes and infections with protease
inhibitors and bevirimat resistant HIV-1 variants with similar values of IC50. Therefore,
we show that the LPTs tested inhibited HIV-1 infection through acting on different targets
depending on their chemical structure and the activities of the different LPTs vary with
slight structural alterations. For example, of the three LPTs under study, we found that
only LPT12 inhibited infectivity of newly-formed viral particles, suggesting a direct action
on the maturation process. Thus, the multi-target behavior gives a potential advantage
to these compounds since HIV-1 resistance can be overcome by modulating more than
one target.