Abstract
Indomethacin blocks the biosynthesis of vesicular stomatitis virus (VSV) at the level of primary transcription, RNA replication, and protein synthesis ( P. K. Mukherjee and R. W. Simpson (1985), Virology 140, 188–191). Nucleocapsids of infecting virus particles recovered from indomethacin-treated cells were analyzed for in vitro transcriptase activity. Incorporation of [ 3H]UTP in mixtures containing nucleocapsids from HEp-2 cells pretreated with 10 −3 M indomethacin was inhibited approximately 80% compared to control reactions containing nucleocapsids from untreated infected cells. The level of inhibition of in vitro transcriptase activity of viral nucleocapsids from drug-treated cultures varied according to the cell line used for infection. After indomethacin removal, cells regained their ability to produce enzymatically competent viral-transcribing complexes unless they were subsequently exposed to metabolic inhibitors such as actinomycin D or α-amanitin. Enzymatically defective nucleocapsids from indomethacin-treated cells showed enhanced in vitro transcriptase activity in the presence of modulators of prostaglandins and cyclic nucleotides. Electrophoretic analysis of product from in vitro transcriptase reactions revealed that these defective nucleocapsids are unable to synthesize VSV messenger RNA or normal size leader RNA species but only smaller transcripts of undetermined identity.
Published Version
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