Abstract
The dengue virus (DENV) is a mosquito-borne pathogen responsible for an estimated 100 million human infections annually. The viral genome encodes a two-component trypsin-like protease that contains the cofactor region from the nonstructural protein NS2B and the protease domain from NS3 (NS3pro). The NS2B-NS3pro complex plays a crucial role in viral maturation and has been identified as a potential drug target. Using a DENV protease construct containing NS2B covalently linked to NS3pro via a Gly4-Ser-Gly4 linker ("linked protease"), previous x-ray crystal structures show that the C-terminal fragment of NS2B is remote from NS3pro and exists in an open state in the absence of an inhibitor; however, in the presence of an inhibitor, NS2B complexes with NS3pro to form a closed state. This linked enzyme produced NMR spectra with severe signal overlap and line broadening. To obtain a protease construct with a resolved NMR spectrum, we expressed and purified an unlinked protease complex containing a 50-residue segment of the NS2B cofactor region and NS3pro without the glycine linker using a coexpression system. This unlinked protease complex was catalytically active at neutral pH in the absence of glycerol and produced dispersed cross-peaks in a (1)H-(15)N heteronuclear single quantum correlation spectrum that enabled us to conduct backbone assignments using conventional techniques. In addition, titration with an active-site peptide aldehyde inhibitor and paramagnetic relaxation enhancement studies demonstrated that the unlinked DENV protease exists predominantly in a closed conformation in solution. This protease complex can serve as a useful tool for drug discovery against DENV.
Highlights
Dengue protease is a two-component protease that is important for viral replication
Using a dengue virus (DENV) protease construct containing NS2B covalently linked to NS3pro via a Gly4-Ser-Gly4 linker (“linked protease”), previous x-ray crystal structures show that the C-terminal fragment of NS2B is remote from NS3pro and exists in an open state in the absence of an inhibitor; in the presence of an inhibitor, NS2B complexes with NS3pro to form a closed state
Due to the significant chemical shift difference observed for the linked protease in the absence and presence of an inhibitor [23], it is hard to use this construct to screen potential protease inhibitors in heteronuclear single quantum correlation (HSQC)-type experiments by NMR
Summary
Dengue protease is a two-component protease that is important for viral replication. Results: An unlinked protease complex containing the NS2B regulatory region and the NS3 protease domain was obtained. Using a DENV protease construct containing NS2B covalently linked to NS3pro via a Gly4-Ser-Gly linker (“linked protease”), previous x-ray crystal structures show that the C-terminal fragment of NS2B is remote from NS3pro and exists in an open state in the absence of an inhibitor; in the presence of an inhibitor, NS2B complexes with NS3pro to form a closed state This linked enzyme produced NMR spectra with severe signal overlap and line broadening. All of the proteins used for the aforementioned structural studies have the ϳ40-amino acid region of NS2B covalently linked to NS3pro via a Gly4-Ser-Gly linker (see Fig. 1C), whereas in nature, the two proteins form the active enzyme through intermolecular association It is currently unknown whether this linked construct bears any resemblance to the protein complex that is formed to process the viral polyprotein. The unlinked DENV protease is useful for probing protein-ligand interactions by NMR spectroscopy and for guiding structure-based drug design
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