fThe envelope (E) protein of dengue virus (DENV) is the major target of neutralizing antibodies (Abs) and vaccine development. Previous studies of human dengue-immune sera reported that a significant proportion of anti-E Abs, known as group-reactive (GR) Abs, were cross-reactive to all four DENV serotypes and to one or more other flaviviruses. Based on studies of mouse anti-E monoclonal antibodies (MAbs), GR MAbs were nonneutralizing or weakly neutralizing compared with type-specific MAbs; a GR response was thus not regarded as important for vaccine strategy. We investigated the epitopes, binding avidities, and neutralization potencies of 32 human GR anti-E MAbs. In addition to fusion loop (FL) residues in E protein domain II, human GR MAbs recognized an epitope involving both FL and bc loop residues in domain II. The neutralization potencies and binding avidities of GR MAbs derived from secondary DENV infection were stronger than those derived from primary infection. GR MAbs derived from primary DENV infection primarily blocked attachment, whereas those derived from secondary infection blocked DENV postattachment. Analysis of the repertoire of anti-E MAbs derived from patients with primary DENV infection revealed that the majority were GR, low-avidity, and weakly neutralizing MAbs, whereas those from secondary infection were primarily GR, high-avidity, and potently neutralizing MAbs. Our findings suggest that the weakly neutralizing GR anti-E Abs generated from primary DENV infection become potently neutralizing MAbs against the four serotypes after secondary infection. The observation that the dengue immune status of the host affects the quality of the cross-reactive Abs generated has implications for new strategies for DENV vaccination.T he four serotypes of dengue virus (DENV) are the leading cause of arboviral diseases in humans in tropical and subtropical regions (1, 2). More than 2.5 billion people in over 100 countries are estimated to be at risk of infection, and 50 to 100 million DENV infections occur every year worldwide (1, 2). After DENV infection, most individuals are asymptomatic or present with a self-limited illness known as dengue fever, but some may develop severe and potentially life-threatening diseases, known as dengue hemorrhagic fever/dengue shock syndrome. Despite considerable efforts to develop vaccines, with several being tested in clinical trials, there is no licensed dengue vaccine currently available (1, 3).DENV belongs to the genus Flavivirus in the family Flaviviridae. It is a positive-sense, single-stranded RNA virus with a genome of approximately 10.6 kb. The genome contains a single open reading frame, which encodes a polyprotein which is cleaved by cellular and viral proteases into three structural proteins (the capsid, precursor membrane [prM], and envelope [E] proteins) and seven nonstructural proteins (4). After binding to its cellular receptor, DENV enters the cell through receptor-mediated endocytosis (5, 6). In the low-pH environment of endosomes, the E protein undergoes...
