Antiviral activity of the proteasome on incoming human immunodeficiency virus type 1
O Schwartz, V Maréchal, B Friguet… - Journal of …, 1998 - Am Soc Microbiol
Journal of virology, 1998•Am Soc Microbiol
Following cell surface receptor binding and membrane fusion, human immunodeficiency
virus (HIV) virion cores are released in the cytoplasm. Incoming viral proteins represent
potential targets for cytosolic proteases. We show that treatment of target cells with the
proteasome inhibitors MG132 and lactacystin increased the efficiency of HIV infection.
Proteasome inhibitors were active at the early steps of the viral cycle. Incoming p24Gag
proteins accumulated in the cytosol, and larger amounts of proviral DNA were synthesized …
virus (HIV) virion cores are released in the cytoplasm. Incoming viral proteins represent
potential targets for cytosolic proteases. We show that treatment of target cells with the
proteasome inhibitors MG132 and lactacystin increased the efficiency of HIV infection.
Proteasome inhibitors were active at the early steps of the viral cycle. Incoming p24Gag
proteins accumulated in the cytosol, and larger amounts of proviral DNA were synthesized …
Abstract
Following cell surface receptor binding and membrane fusion, human immunodeficiency virus (HIV) virion cores are released in the cytoplasm. Incoming viral proteins represent potential targets for cytosolic proteases. We show that treatment of target cells with the proteasome inhibitors MG132 and lactacystin increased the efficiency of HIV infection. Proteasome inhibitors were active at the early steps of the viral cycle. Incoming p24Gag proteins accumulated in the cytosol, and larger amounts of proviral DNA were synthesized. In vitro, purified 20S proteasome degraded HIV virion components. Thus, degradation of incoming viral proteins by the proteasome represents an early intracellular defense against infection.
American Society for Microbiology