Cross-serotypically conserved epitope recommendations for a universal T cell-based dengue vaccine.

Syed Faraz Ahmed,John P Barton,Ahmed A Quadeer,Matthew R Mckay,Daniela Weiskopf

doi:10.1371/journal.pntd.0008676

Abstract

Dengue virus (DENV)-associated disease is a growing threat to public health across the globe. Co-circulating as four different serotypes, DENV poses a unique challenge for vaccine design as immunity to one serotype predisposes a person to severe and potentially lethal disease upon infection from other serotypes. Recent experimental studies suggest that an effective vaccine against DENV should elicit a strong T cell response against all serotypes, which could be achieved by directing T cell responses toward cross-serotypically conserved epitopes while avoiding serotype-specific ones. Here, we used experimentally-determined DENV T cell epitopes and patient-derived DENV sequences to assess the cross-serotypic variability of the epitopes. We reveal a distinct near-binary pattern of epitope conservation across serotypes for a large number of DENV epitopes. Based on the conservation profile, we identify a set of 55 epitopes that are highly conserved in at least 3 serotypes. Most of the highly conserved epitopes lie in functionally important regions of DENV non-structural proteins. By considering the global distribution of human leukocyte antigen (HLA) alleles associated with these DENV epitopes, we identify a potentially robust subset of HLA class I and class II restricted epitopes that can serve as targets for a universal T cell-based vaccine against DENV while covering ~99% of the global population.

Highlights

Dengue is a mosquito-borne viral infection that mostly causes febrile illness, but in some cases progresses into a life-threatening disease [1]
By considering the global distribution of human leukocyte antigen (HLA) alleles associated with these dengue virus (DENV) epitopes, we identify a potentially robust subset of HLA class I and class II restricted epitopes that can serve as targets for a universal T cellbased vaccine against DENV while covering ~99% of the global population
Since infection from one DENV serotype makes a person vulnerable to severe disease upon infection from another serotype, an effective vaccine should protect against all DENV serotypes

Summary

Introduction

Dengue is a mosquito-borne viral infection that mostly causes febrile illness, but in some cases progresses into a life-threatening disease [1]. It is caused by the dengue virus (DENV) which exists as four genetically and antigenically distinct serotypes [2,3]. The only licensed dengue vaccine, Dengvaxia, does not completely protect against all DENV serotypes and, more importantly, increases the risk of severe disease among young children who are already most vulnerable to DENV infections [9,10]

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Conclusion