Yellow fever virus NS2B-NS3 protease: Charged-to-alanine mutagenesis and deletion analysis define regions important for protease complex formation and function

Charged-to-alanine substitutions and deletions within the yellow fever virus NS2B-NS3(181) protease were analyzed for effects on protease function. During cell-free translation of NS2B-3(181) polyproteins, mutations at three charge clusters markedly impaired cis cleavage activity: a single N-terminal cluster in the conserved domain of NS2B (residues ELKK52-55) and two in NS3 (ED21-221 and residue H-47). These mutations inhibited other protease-dependent cleavages of a transiently expressed nonstructural polyprotein, although differential effects occurred. NS2B and NS3(181) proteins harboring these mutations were impaired in their ability to associate for trans cleavage activity. N-terminal deletions in NS3 also implicated residues ED21-22 in the association with NS2B. Deletions within NS2B revealed that the conserved domain alone provided minimal cofactor activity, with optimal function requiring both flanking hydrophobic regions. NS2B-3(181)- and NS3(181)-green fluorescent protein fusion proteins were used to determine the intracellular distribution of the protease complex. The former localized in membrane-based vesicular structures, whereas the latter localized poorly. The data suggest that NS2B-NS3 complex formation requires charge interactions involving the N-terminus of the conserved domain of NS2B and 22 N-terminal residues of NS3. A role for the putative transmembrane regions of NS2B in targeting of NS3 to intracellular membranes is also suggested. (C) 2000 Academic Press.