West Nile virus (WNV) is a neurotropic flavivirus that is now a primary cause of epidemic encephalitis inWNV cycles in nature between several species of birds and Culex mosquitoes, with humans and other mammals as deadend hosts (25, 62). Infection causes syndromes ranging from a mild febrile illness to severe encephalitis and death (13, 72). WNV has spread globally and causes outbreaks with thousands of severe human cases annually in the United States. An age of greater than 55 years, a compromised immune status, and a CC5⌬32 genotype have been associated with more-severe disease (15,20). There is currently no approved vaccine or therapy for WNV infection.The mature WNV virion has a ϳ500-Å diameter and consists of a single RNA genome surrounded by the capsid protein, a lipid bilayer, and a shell of the prM/M and E proteins (31, 55). X-ray crystallography studies have elucidated the three-domain structure of the flavivirus E protein (30,48,50,58,67). Domain I (DI) is a central, eight-stranded -barrel, which contains the only N-linked glycosylation site in WNV E. Domain II (DII) is a long, finger-like protrusion from DI and contains the highly conserved fusion peptide at its distal end. Domain III (DIII) adopts an immunoglobulin-like fold at the opposite end of DI and is believed to contain a site for receptor attachment (6,8,40).Within an infected cell, progeny WNV are assembled initially as immature particles. In immature virions, three pairs of E and prM interact as trimers and form 60 spiked projections with icosahedral symmetry (85,86). Exposure to mildly acidic conditions in the trans-Golgi secretory pathway promotes virus maturation through a structural rearrangement of the E proteins and cleavage of prM to M by a furin-like protease (41,83). Mature WNV virions are covered by 90 antiparallel E protein homodimers, which are arranged flat along the surface in a herringbone pattern with quasi-icosahedral symmetry (55).Upon binding to poorly characterized cell surface receptors, internalization of WNV is believed to occur through receptormediated, clathrin-dependent endocytosis (1,79,80). After trafficking to 79), the mildly acidic pH within the lumen of the endosome induces structural alterations in the flavivirus E protein (7, 49), which includes changes in its oligomeric state (7,49,77). During this process, also known as type II fusion, the hydrophobic peptide on the fusion loop of DII of the E protein inserts into the
