Abstract
Proteases produced during the culture of Spodoptera frugiperda Sf-9 cells infected with Autographa californica nuclear polyhedrosis virus (AcNPV) were assayed with various protease inhibitors. This inhibitory analysis revealed that: (1) carboxyl and cysteine proteases were predominantly produced by the insect cells infected with recombinant AcNPV, the gene of which encoded a variant of green fluorescent protein in a portion of the polyhedrin gene of the baculovirus, and (2) the protease activity was almost completely blocked by pepstatin A (carboxyl protease inhibitor) and E64 (cysteine protease inhibitor) in an additive manner in the presence of EDTA. Utilizing the additive property of the inhibitors, the inhibition-based protease assay discriminated between the two protease activities and elucidated the sequential behavior of the carboxyl and cysteine proteases produced in the virus-infected Sf-9 cell culture. The carboxyl protease(s) existed in the virus-infected cells all the time and their level in the medium continuously increased. Uninfected cells also contained a carboxyl protease activity, the level of which was similar to that of the virus-infected cells. At a certain time after virus infection, the cysteine protease activity was largely increased in the virus-infected cells and a significant amount of the protease(s) was released into the medium, due to the cell membranes losing their integrity. The behavior of intracellular and extracellular cysteine protease activities coincided with that of a recombinant protein whose expression was under the control of the viral polyhedrin promoter. Similar examinations with wt-AcNPV-infected and uninfected insect cells showed that the inhibition-based protease assay was useful for analyzing the carboxyl protease and cysteine protease activities emerging in the insect cell (Sf-9)/baculovirus expression system.
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