Synthetic Particulate Subunit Vaccines for the Prevention of Q Fever

Sam, Gayathri; Plain, Karren; Chen, Shuxiong; Islam, Aminul; Westman, Mark E.; Marsh, Ian; Stenos, John; Graves, Stephen R.; Rehm, Bernd H. A.

doi:10.1002/adhm.202302351

Adv Healthcare Materials

2024

DOI: 10.1002/adhm.202302351

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Synthetic Particulate Subunit Vaccines for the Prevention of Q Fever

Gayathri Sam,

Karren Plain,

Shuxiong Chen

et al.

Abstract: Coxiella burnetti is an intracellular bacterium that causes Q fever, a disease of worldwide importance. Q‐VAX®, the approved human Q fever vaccine, is a whole cell vaccine associated with safety concerns. Here we developed a safe particulate subunit vaccine candidate that is ambient‐temperature stable and can be cost‐effectively manufactured. We bioengineered endotoxin‐free Escherichia coli to efficiently self‐assemble biopolymer particles (BPs) that are densely coated with either strings of 18 T‐cell epitopes… Show more

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Cited by 4 publications

References 73 publications

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Intranasal Epitope‐Polymer Vaccine Lodges Resident Memory T Cells Protecting Against Influenza Virus

Liu,

Kabir,

Chen

et al. 2024

Adv Healthcare Materials

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Intranasal vaccines, unlike injectable vaccines, boost immunity along the respiratory tract; this can significantly limit respiratory virus replication and shedding. There remains a need to develop mucosal adjuvants and vaccine delivery systems that are both safe and effective following intranasal administration. Here, we have bioengineered biopolymer particles (BP) densely coated with repeats of MHC class I restricted immunodominant epitopes derived from influenza A virus namely NP366, a nucleoprotein‐derived epitope and PA224, a polymerase acidic subunit derived epitope. These BP‐NP366/PA224 could be manufactured at high yield and are obtained at ∼93% purity exhibiting ambient‐temperature stability. Immunological characterisation includes comparing systemic and mucosal immune responses mounted following intramuscular or intranasal immunisation. Immunization with BP‐NP366/PA224 without adjuvant triggers influenza‐specific CD8+ T cell priming and memory CD8+ T cell development. Co‐delivery with the adjuvant poly(I:C) significantly boosts the size and functionality of the influenza‐specific pulmonary resident memory CD8+ T cell pool. Intranasal, but not intramuscular delivery of BP‐NP366/PA224 with poly(I:C) provides protection against influenza virus challenge. Overall, the BP approach demonstrates as a suitable antigen formulation for intranasal delivery toward induction of systemic protective T cell responses against influenza virus.This article is protected by copyright. All rights reserved

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Intranasal Epitope‐Polymer Vaccine Lodges Resident Memory T Cells Protecting Against Influenza Virus

Liu,

Kabir,

Chen

et al. 2024

Adv Healthcare Materials

Self Cite

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show abstract

A targeted vaccination strategy: Integrating vaccines into biosafety, biosecurity, and one health initiatives

AL-Eitan,

Abu Khiarah,

Almahdawi

2025

Journal of Biosafety and Biosecurity

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Functionalisation of polyhydroxybutyrate for diagnostic uses

Sam,

Chen,

Rehm

2025

New Biotechnology

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Synthetic Particulate Subunit Vaccines for the Prevention of Q Fever

Cited by 4 publications

References 73 publications

Intranasal Epitope‐Polymer Vaccine Lodges Resident Memory T Cells Protecting Against Influenza Virus

Intranasal Epitope‐Polymer Vaccine Lodges Resident Memory T Cells Protecting Against Influenza Virus

A targeted vaccination strategy: Integrating vaccines into biosafety, biosecurity, and one health initiatives

Functionalisation of polyhydroxybutyrate for diagnostic uses

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