Cleavage at a novel site in the NS4A region by the yellow fever virus NS2B-3 proteinase is a prerequisite for processing at the downstream 4A/4B signalase site.

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J Virol. 1993 April; 67(4): 2327-2335

Cleavage at a novel site in the NS4A region by the yellow fever virus NS2B-3 proteinase is a prerequisite for processing at the downstream 4A/4B signalase site.

C Lin, S M Amberg, T J Chambers and C M Rice

Department of Molecular Microbiology, Washington University School of Medicine, St. Louis, Missouri 63110-1093.

ABSTRACT

Flavivirus proteins are produced by co- and posttranslationalproteolytic processing of a large polyprotein by both host-and virus-encoded proteinases. The viral serine proteinase,which consists of NS2B and NS3, is responsible for cleavageof at least four dibasic sites (2A/2B, 2B/3, 3/4A, and 4B/5)in the nonstructural region. Since the amino acid sequence precedingNS4B shares characteristics with signal peptides used for translocationof nascent polypeptides into the lumen of the endoplasmic reticulum,it has been proposed that cleavage at the 4A/4B site is mediatedby a cellular signal peptidase. In this report, cell-free translationand in vivo transient expression assays were used to study processingin the NS4 region of the yellow fever virus polyprotein. Witha construct which contained NS4B preceded by 17 residues constitutingthe putative signal peptide (sig4B), membrane-dependent cleavageat the 4A/4B site was demonstrated in vitro. Surprisingly, processingof NS4A-4B was not observed in cell-free translation studies,and in vivo expression of several yellow fever virus polyproteinsrevealed that the 4A/4B cleavage occurred only during coexpressionof NS2B and the proteinase domain of NS3. Examination of mutantderivatives of the NS3 proteinase domain demonstrated that cleavageat the 4A/4B site correlated with expression of an active NS2B-3proteinase. From these results, we propose a model in whichthe signalase cleavage generating the N terminus of NS4B requiresa prior NS2B-3 proteinase-mediated cleavage at a novel site(called the 4A/2K site) which is conserved among flavivirusesand located 23 residues upstream of the signalase site. In supportof this model, mutations at the 4A/4B signalase site did noteliminate processing in the NS4 region. In contrast, substitutionsat the 4A/2K site, which were engineered to block NS2B-3 proteinase-mediatedcleavage, eliminated signalase cleavage at the 4A/4B site. Inaddition, the size of the 3(502)-4A product generated by transprocessing of a truncated polyprotein, 3(502)-5(356), was consistentwith cleavage at the 4A/2K site rather than at the downstream4A/4B signalase site.

J Virol. 1993 April; 67(4): 2327-2335

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