Protein and glycan mimicry in HIV vaccine design

Publication date: Available online 24 April 2019Source: Journal of Molecular BiologyAuthor(s): Gemma E. Seabright, Katie J. Doores, Dennis R. Burton, Max CrispinAbstractAntigenic mimicry is a fundamental tenet of structure-based vaccinology. Vaccine strategies for the human immunodeficiency virus type 1 (HIV-1) focus on the mimicry of its envelope spike (Env) due to its exposed location on the viral membrane and role in mediating infection. However, the virus has evolved to minimise the immunogenicity of conserved epitopes on the envelope spike. This principle is starkly illustrated by the presence of an extensive array of host-derived glycans which act to shield the underlying protein from antibody recognition. Despite these hurdles, a subset of HIV-infected individuals eventually develop broadly neutralising antibodies that recognise these virally-presented glycans. Effective HIV-1 immunogens are therefore likely to involve some degree of mimicry of both the protein and glycan components of Env. As such, considerable efforts have been made to characterise the structure of the envelope spike and its glycan shield. This review summarises the recent progress made in this field, with an emphasis on our growing understanding of the factors shaping the glycan shield of Env derived from both virus and soluble immunogens. We argue that recombinant mimics of the envelope spike are currently capable of capturing many features of the native viral glycan shield. Finally, we explore str...
Source: Journal of Molecular Biology - Category: Molecular Biology Source Type: research