Abstract

One of the late processing events in the flavivirus replication cycle involves cleavage of the intracellular form of the flavivirus capsid protein (Cint) to the mature virion form (Cvir) lacking the carboxy-terminal stretch of hydrophobic amino acids which serves as a signal peptide for the downstream prM protein. This cleavage event was hypothesized to be effected by a viral protease and to be associated with virion formation. We have proposed a model of flavivirus virion formation in which processing of the C-prM precursor at the upstream signalase site is upregulated by interaction of the NS2B part of the protease with the prM signal peptide or with an adjacent carboxy-terminal region of the capsid protein in the precursor, and processing of Cint by the NS2B-NS3 protease follows the signalase cleavage. Recently, an alternative hypothesis was proposed which suggests a reverse order of these two cleavage events, namely, that cleavage of the C-prM precursor by the NS2B-NS3 protease at the Cint-->Cvir dibasic cleavage site is a prerequisite for the subsequent signalase cleavage of the prM signal peptide. To distinguish between these alternative models, we prepared a series of expression cassettes carrying mutations at the Cint-->Cvir dibasic cleavage site and investigated the effects of these mutations on signalase processing of C-prM and on formation and secretion of prM-E heterodimers. For certain mutated C-prM precursors, namely, for those with Lys-->Gly disruption of the dibasic site, efficient formation of prM was observed upon expression from larger cassettes encoding the viral protease, despite the absence of processing at the Cint-->Cvir cleavage site. Surprisingly, formation and secretion of prM-E heterodimers accompanied by late cleavage of prM was also observed for these cassettes, with an efficiency comparable to that of the wild-type expression cassette. These observations contradict the model in which cleavage of the C-prM precursor at the Cint-->Cvir dibasic site is a prerequisite for signalase cleavage.

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