Author:
Carnell George W.,Billmeier Martina,Vishwanath Sneha,Suau Sans Maria,Wein Hannah,George Charlotte L.,Neckermann Patrick,Del Rosario Joanne Marie M.,Sampson Alexander T.,Einhauser Sebastian,Aguinam Ernest T.,Ferrari Matteo,Tonks Paul,Nadesalingam Angalee,Schütz Anja,Huang Chloe Qingzhou,Wells David A.,Paloniemi Minna,Jordan Ingo,Cantoni Diego,Peterhoff David,Asbach Benedikt,Sandig Volker,Temperton Nigel,Kinsley Rebecca,Wagner Ralf,Heeney Jonathan L.
Abstract
The accelerated development of the first generation COVID-19 vaccines has saved millions of lives, and potentially more from the long-term sequelae of SARS-CoV-2 infection. The most successful vaccine candidates have used the full-length SARS-CoV-2 spike protein as an immunogen. As expected of RNA viruses, new variants have evolved and quickly replaced the original wild-type SARS-CoV-2, leading to escape from natural infection or vaccine induced immunity provided by the original SARS-CoV-2 spike sequence. Next generation vaccines that confer specific and targeted immunity to broadly neutralising epitopes on the SARS-CoV-2 spike protein against different variants of concern (VOC) offer an advance on current booster shots of previously used vaccines. Here, we present a targeted approach to elicit antibodies that neutralise both the ancestral SARS-CoV-2, and the VOCs, by introducing a specific glycosylation site on a non-neutralising epitope of the RBD. The addition of a specific glycosylation site in the RBD based vaccine candidate focused the immune response towards other broadly neutralising epitopes on the RBD. We further observed enhanced cross-neutralisation and cross-binding using a DNA-MVA CR19 prime-boost regime, thus demonstrating the superiority of the glycan engineered RBD vaccine candidate across two platforms and a promising candidate as a broad variant booster vaccine.
Subject
Immunology,Immunology and Allergy
Cited by
7 articles.
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