Single-epitope T cell–based vaccine protects against SARS-CoV-2 infection in a preclinical animal model
Takuya Tada, Ju-Yi Peng, Belinda M. Dcosta, Nathaniel R. Landau
Takuya Tada, Ju-Yi Peng, Belinda M. Dcosta, Nathaniel R. Landau
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Research Article COVID-19 Immunology

Single-epitope T cell–based vaccine protects against SARS-CoV-2 infection in a preclinical animal model

Abstract

Currently authorized COVID-19 vaccines induce humoral and cellular responses to epitopes in the SARS-CoV-2 spike protein, though the relative roles of antibodies and T cells in protection are not well understood. To understand the role of vaccine-elicited T cell responses in protection, we established a T cell–only vaccine using a DC-targeted lentiviral vector expressing single CD8+ T cell epitopes of the viral nucleocapsid, spike, and ORF1. Immunization of angiotensin-converting enzyme 2–transgenic mice with ex vivo lentiviral vector–transduced DCs or by direct injection of the vector induced the proliferation of functional antigen-specific CD8+ T cells, resulting in a 3-log decrease in virus load upon live virus challenge that was effective against the ancestral virus and Omicron variants. The Pfizer/BNT162b2 vaccine was also protective in mice, but the antibodies elicited did not cross-react on the Omicron variants, suggesting that the protection was mediated by T cells. The studies suggest that the T cell response plays an important role in vaccine protection. The findings suggest that the incorporation of additional T cell epitopes into current vaccines would increase their effectiveness and broaden protection.

Authors

Takuya Tada, Ju-Yi Peng, Belinda M. Dcosta, Nathaniel R. Landau

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Figure 1

DC vaccine protects mice against SARS-CoV-2 infection.

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DC vaccine protects mice against SARS-CoV-2 infection. (A) Schematic of ...
(A) Schematic of lentiviral vectors expressing murine CD40L and CD8+ T cell epitopes N219-227, N105-113, ORF11637-1646, S539-546, and N219-227-S539-546. (B) The experimental scheme for testing vaccine protection is diagrammed. hACE2-KI mice were immunized by 2 IV injections of 1 × 106 transduced DCs, 1 week apart (n = 6). The mice were challenged 1 week after the second immunization with 2 × 104 PFU SARS-CoV-2 WA1/2020. SAMHD1-KO BMDCs were transduced with lentiviral vectors at MOI = 5, and CD40L expression was analyzed 3 dpi by flow cytometry (bottom). The experiment was done twice with similar results. hACE2-KI, human angiotensin-converting enzyme 2–knockin; dpi, days postinfection. (C) Viral subgenomic RNA in the lungs of the immunized mice was measured by RT-qPCR 3 days postchallenge. The y axis of the histograms shows the viral RNA copy numbers/g lung tissue. Statistical significance was determined by Kruskal-Wallis test with post hoc Dunn’s test. Confidence intervals are shown as the mean ± SD. (**P ≤ 0.01, ****P ≤ 0.0001.) The experiment was done 3 times with similar results. (D) Hematoxylin and eosin staining of lung sections from unimmunized and lentiviral vector–immunized mice (original magnification, 20×; scale bars: 50 μm). Each image is representative of 6 mice.