A ferritin-based COVID-19 nanoparticle vaccine that elicits robust, durable, broad-spectrum neutralizing antisera in non-human primates

Payton A.-B. Weidenbacher; Mrinmoy Sanyal; Natalia Friedland; Shaogeng Tang; Prabhu S. Arunachalam; Mengyun Hu; Ozan S. Kumru; Mary Kate Morris; Jane Fontenot; Lisa Shirreff; Jonathan Do; Ya-Chen Cheng; Gayathri Vasudevan; Mark B. Feinberg; Francois J. Villinger; Carl Hanson; Sangeeta B. Joshi; David B. Volkin; Bali Pulendran; Peter S. Kim

doi:10.1038/s41467-023-37417-9

Nature Communications (Apr 2023)

A ferritin-based COVID-19 nanoparticle vaccine that elicits robust, durable, broad-spectrum neutralizing antisera in non-human primates

Payton A.-B. Weidenbacher,
Mrinmoy Sanyal,
Natalia Friedland,
Shaogeng Tang,
Prabhu S. Arunachalam,
Mengyun Hu,
Ozan S. Kumru,
Mary Kate Morris,
Jane Fontenot,
Lisa Shirreff,
Jonathan Do,
Ya-Chen Cheng,
Gayathri Vasudevan,
Mark B. Feinberg,
Francois J. Villinger,
Carl Hanson,
Sangeeta B. Joshi,
David B. Volkin,
Bali Pulendran,
Peter S. Kim

Affiliations

Payton A.-B. Weidenbacher: Sarafan ChEM-H, Stanford University
Mrinmoy Sanyal: Sarafan ChEM-H, Stanford University
Natalia Friedland: Sarafan ChEM-H, Stanford University
Shaogeng Tang: Sarafan ChEM-H, Stanford University
Prabhu S. Arunachalam: Institute for Immunity, Transplantation and Infection, Stanford University School of Medicine
Mengyun Hu: Institute for Immunity, Transplantation and Infection, Stanford University School of Medicine
Ozan S. Kumru: Vaccine Analytics and Formulation Center, Department of Pharmaceutical Chemistry, University of Kansas
Mary Kate Morris: California Department of Public Health
Jane Fontenot: New Iberia Research Center, University of Louisiana at Lafayette
Lisa Shirreff: New Iberia Research Center, University of Louisiana at Lafayette
Jonathan Do: Sarafan ChEM-H, Stanford University
Ya-Chen Cheng: Sarafan ChEM-H, Stanford University
Gayathri Vasudevan: IAVI
Mark B. Feinberg: IAVI
Francois J. Villinger: New Iberia Research Center, University of Louisiana at Lafayette
Carl Hanson: California Department of Public Health
Sangeeta B. Joshi: Vaccine Analytics and Formulation Center, Department of Pharmaceutical Chemistry, University of Kansas
David B. Volkin: Vaccine Analytics and Formulation Center, Department of Pharmaceutical Chemistry, University of Kansas
Bali Pulendran: Institute for Immunity, Transplantation and Infection, Stanford University School of Medicine
Peter S. Kim: Sarafan ChEM-H, Stanford University

DOI: https://doi.org/10.1038/s41467-023-37417-9
Journal volume & issue: Vol. 14, no. 1
pp. 1 – 13

Abstract

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Abstract While the rapid development of COVID-19 vaccines has been a scientific triumph, the need remains for a globally available vaccine that provides longer-lasting immunity against present and future SARS-CoV-2 variants of concern (VOCs). Here, we describe DCFHP, a ferritin-based, protein-nanoparticle vaccine candidate that, when formulated with aluminum hydroxide as the sole adjuvant (DCFHP-alum), elicits potent and durable neutralizing antisera in non-human primates against known VOCs, including Omicron BQ.1, as well as against SARS-CoV-1. Following a booster ~one year after the initial immunization, DCFHP-alum elicits a robust anamnestic response. To enable global accessibility, we generated a cell line that can enable production of thousands of vaccine doses per liter of cell culture and show that DCFHP-alum maintains potency for at least 14 days at temperatures exceeding standard room temperature. DCFHP-alum has potential as a once-yearly (or less frequent) booster vaccine, and as a primary vaccine for pediatric use including in infants.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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