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Literature DB >> 34449440

Attenuated activation of pulmonary immune cells in mRNA-1273-vaccinated hamsters after SARS-CoV-2 infection.

Michelle Meyer^1,2, Yuan Wang^3,4, Darin Edwards⁵, Gregory R Smith⁶, Aliza B Rubenstein⁶, Palaniappan Ramanathan^1,2, Chad E Mire^2,7, Colette Pietzsch^1,2, Xi Chen^4,8, Yongchao Ge⁶, Wan Sze Cheng⁶, Carole Henry⁵, Angela Woods⁵, LingZhi Ma⁵, Guillaume Be Stewart-Jones⁵, Kevin W Bock⁹, Mahnaz Minai⁹, Bianca M Nagata⁹, Sivakumar Periasamy^1,2, Pei-Yong Shi¹⁰, Barney S Graham¹¹, Ian N Moore⁹, Irene Ramos⁶, Olga G Troyanskaya^3,4,8, Elena Zaslavsky⁶, Andrea Carfi⁵, Stuart C Sealfon⁶, Alexander Bukreyev^1,2,7.

Abstract

The mRNA-1273 vaccine is effective against SARS-CoV-2 and was granted emergency use authorization by the FDA. Clinical studies, however, cannot provide the controlled response to infection and complex immunological insight that are only possible with preclinical studies. Hamsters are the only model that reliably exhibits severe SARS-CoV-2 disease similar to that in hospitalized patients, making them pertinent for vaccine evaluation. We demonstrate that prime or prime-boost administration of mRNA-1273 in hamsters elicited robust neutralizing antibodies, ameliorated weight loss, suppressed SARS-CoV-2 replication in the airways, and better protected against disease at the highest prime-boost dose. Unlike in mice and nonhuman primates, low-level virus replication in mRNA-1273-vaccinated hamsters coincided with an anamnestic response. Single-cell RNA sequencing of lung tissue permitted high-resolution analysis that is not possible in vaccinated humans. mRNA-1273 prevented inflammatory cell infiltration and the reduction of lymphocyte proportions, but enabled antiviral responses conducive to lung homeostasis. Surprisingly, infection triggered transcriptome programs in some types of immune cells from vaccinated hamsters that were shared, albeit attenuated, with mock-vaccinated hamsters. Our results support the use of mRNA-1273 in a 2-dose schedule and provide insight into the potential responses within the lungs of vaccinated humans who are exposed to SARS-CoV-2.

Entities: Chemical

Keywords: Adaptive immunity; Bioinformatics; Cellular immune response; Immunology; Vaccines

Mesh：

Substances：

Year: 2021 PMID： 34449440 PMCID： PMC8516449 DOI： 10.1172/JCI148036

Source DB: PubMed Journal: J Clin Invest ISSN： 0021-9738 Impact factor: 14.808

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