A problem in the search for an efficient vaccine against dengue virus is the immunodominance of the fusion loop epitope (FLE), a segment of the envelope protein E that is buried at the interface of the E dimers coating mature viral particles.
Anti-FLE antibodies are broadly cross-reactive but poorly neutralizing, displaying a strong infection enhancing potential. FLE exposure takes place via dynamic “breathing” of E dimers at the virion surface. In contrast, antibodies targeting the E dimer epitope (EDE), readily exposed at the E dimer interface over the region of the conserved fusion loop, are very potent and broadly neutralizing. We have engineered E dimers locked by inter-subunit disulphide bonds, and show here by X-ray crystallography and by binding to a panel of human antibodies that these engineered dimers do not expose the FLE while retaining the EDE exposure. These locked dimers are strong immunogen candidates for a next-generation vaccine