Abstract
Myristoylation of human immunodeficiency virus (HIV) Gag protein is essential for virus particle budding. Two reactions are involved; activation of free myristate to myristoyl-CoA and transfer of the myristoyl residue to the Gag N-terminal glycine. We have investigated the effects of triacsin C, an inhibitor of long chain acyl-CoA synthetase, on release of HIV Gag virus-like particle (VLP) produced using the recombinant baculovirus system. First, inhibition of acyl-CoA formation by triacsin C was confirmed using the membrane fractions of insect Sf9 cells as an enzyme source. Second, when HIV Gag protein was expressed in the presence of triacsin C (0-48 microM), Gag myristoylation was inhibited in a dose-dependent manner. Budding of Gag VLP, however, did not follow similar inhibition kinetics but appeared unaffected up to 24 microM, yet was completely abolished at 48 microM when the myristoylation of Gag protein was also completely inhibited. The "all-or-none" inhibition of Gag VLP budding suggests that although inhibition of acyl-CoA synthetase blocks the production of myristoylated Gag protein, only complete inhibition of Gag myristoylation prevents VLP budding. Thus, relatively few myristoylated Gag molecules are sufficient for plasma membrane targeting and VLP budding.
Highlights
Myristoylation of human immunodeficiency virus (HIV) Gag protein is essential for virus particle budding
We have investigated the effects of triacsin C, an inhibitor of long chain acyl-CoA synthetase, on release of HIV Gag virus-like particle (VLP) produced using the recombinant baculovirus system
It is well established that HIV Gag myristoylation is essential for plasma membrane targeting of Gag protein, as when the myristoylation acceptor glycine located at the N terminus of Gag protein is mutated, the budding of HIV Gag VLP is completely abolished, and their assembly is restricted to intracellular locations (4, 10 –13)
Summary
Materials—Triacsin C was purified from a culture broth of Streptomyces sp. SK-1894 as reported previously [20]. Triacsin C was usually added to every assay described below as an ethanol solution, and the final volume of ethanol never exceeded 2.5%. Equivalent concentrations of ethanol alone showed no effects on the assays. Palmitic, and oleic acids were purchased from Funakoshi, Japan. [14C]Myristic acid (58.0 Ci/mol), [14C]palmitic acid (56.0 Ci/mol), and [14C]oleic acid (56.0 Ci/mol) were purchased from DuPont NEN, and [14C]rainbow protein molecular weight markers and [9,10(n)-3H]myristic acid were from Palmitic, and oleic acids were purchased from Funakoshi, Japan. [14C]Myristic acid (58.0 Ci/mol), [14C]palmitic acid (56.0 Ci/mol), and [14C]oleic acid (56.0 Ci/mol) were purchased from DuPont NEN, and [14C]rainbow protein molecular weight markers and [9,10(n)-3H]myristic acid were from
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