A bioengineered pseudovirus nanoparticle displaying SARS‐CoV 2 RBD fully protects mice from mortality and weight loss caused by SARS‐CoV 2 challenge

Xia, Ming; López, Krisangel; Vago, Frank S.; Huang, Pengwei; Auguste, Dawn I.; Jiang, Wen; Auguste, Albert J.; Tan, Ming

doi:10.1002/biot.202300130

Cited by 4 publications

(5 citation statements)

References 77 publications

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“…The smaller PVNPs observed in this study could potentially be assembled through one or both these two symmetries consisting of 24 and/or 12 S-CSP fusion proteins, respectively. In addition, in our recent studies, we observed impacts on S nanoparticle formation by the displayed antigen [32,35]. In this case, S nanoparticle formation underwent certain changes, making the shell of the S nanoparticle go inward to form a compact particle core with a small center lumen [32,35].…”

Section: Discussionmentioning

confidence: 85%

“…In addition, in our recent studies, we observed impacts on S nanoparticle formation by the displayed antigen [32,35]. In this case, S nanoparticle formation underwent certain changes, making the shell of the S nanoparticle go inward to form a compact particle core with a small center lumen [32,35]. This could also result in a smaller-sized PVNP.…”

Section: Discussionmentioning

confidence: 86%

“…UCSF ChimeraX software (version 1.4) [33] was used to model the 3D structures of the S 60 -CSP PVNPs using the cryogenic electronmicroscopy (cryo-EM) density map of the S 60 -VP8* nanoparticle [29] as a template. The two components of the S 60 -CSP PVNP were taken from the crystal structures of the inner shell of 60-valent VLPs of feline calicivirus (FCV) (PDB code: 4PB6) [34] and GII.4 norovirus [35], as well as the predicted structure of P. falciparum CSP (AF-P19597-F1) from the AlphaFold Protein Structure Database (https://alphafold.ebi.ac.uk/, accessed on 26 September 2013). UCSF ChimeraX was also used for the structural analysis of the S-CSP model and the production of the final images.…”

Section: Methodsmentioning

confidence: 99%

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Pseudovirus Nanoparticles Displaying Plasmodium Circumsporozoite Proteins Elicited High Titers of Sporozoite-Binding Antibody

Xia,

Huang,

Vago

et al. 2023

Vaccines

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Background: malaria caused by Plasmodium parasites remains a public health threat. The circumsporozoite proteins (CSPs) of Plasmodium sporozoite play a key role in Plasmodium infection, serving as an excellent vaccine target. Methods: using a self-assembled S60 nanoparticle platform, we generated pseudovirus nanoparticles (PVNPs) displaying CSPs, named S-CSPs, for enhanced immunogenicity. Results: purified Hisx6-tagged or tag-free S-CSPs self-assembled into PVNPs that consist of a norovirus S60 inner shell and multiple surface-displayed CSPs. The majority of the PVNPs measured ~27 nm with some size variations, and their three-dimensional structure was modeled. The PVNP-displayed CSPs retained their glycan receptor-binding function. A mouse immunization study showed that PVNPs induced a high antibody response against CSP antigens and the PVNP-immunized mouse sera stained the CSPs of Plasmodium sporozoites at high titer. Conclusions and discussion: the PVNP-displayed CSPs retain their authentic antigenic feature and receptor-binding function. The CSP-specific antibody elicited by the S-CSP PVNPs binds original CSPs and potentially inhibits the attachment of Plasmodium sporozoites to their host cells, a key step for liver invasion by the sporozoites. Thus, S-CSP PVNPs may be an excellent vaccine candidate against malaria caused by Plasmodium parasites.

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Section: Discussionmentioning

confidence: 85%

Section: Discussionmentioning

confidence: 86%

Section: Methodsmentioning

confidence: 99%

See 1 more Smart Citation

Pseudovirus Nanoparticles Displaying Plasmodium Circumsporozoite Proteins Elicited High Titers of Sporozoite-Binding Antibody

Xia,

Huang,

Vago

et al. 2023

Vaccines

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“…Thus, the VP4e on the PVNPs should also form dimers like NoV protrusion (P) dimers . The NoV S domain can assemble into T = 1 and T = 3 icosahedrons after a protein is fused to the C-terminal end of the S domain. , Since the ∼26 nm S 60 -VP8* PVNP is a T = 1 icosahedron, the ∼28 nm S-VP4e PVNPs should be in the same T = 1 icosahedral symmetry consisting of 60 S-VP4e proteins, while the ∼34 nm S-VP4e PVNP should be T = 3 icosahedrons containing 180 S-VP4e proteins.…”

Section: Resultsmentioning

confidence: 99%

A Viral Protein 4-Based Trivalent Nanoparticle Vaccine Elicited High and Broad Immune Responses and Protective Immunity against the Predominant Rotaviruses

Xia,

Huang,

Vago

et al. 2024

ACS Nano

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The current live rotavirus (RV) vaccines show reduced effectiveness in developing countries, calling for vaccine strategies with improved efficacy and safety. We generated pseudovirus nanoparticles (PVNPs) that display multiple ectodomains of RV viral protein 4 (VP4), named S-VP4e, as a nonreplicating RV vaccine candidate. The RV spike protein VP4s that bind host receptors and facilitate viral entry are excellent targets for vaccination. In this study, we developed scalable methods to produce three S-VP4e PVNPs, each displaying the VP4e antigens from one of the three predominant P[8], P[4], and P[6] human RVs (HRVs). These PVNPs were recognized by selected neutralizing VP4-specific monoclonal antibodies, bound glycan receptors, attached to permissive HT-29 cells, and underwent cleavage by trypsin between VP8* and VP5*. 3D PVNP models were constructed to understand their structural features. A trivalent PVNP vaccine containing the three S-VP4e PVNPs elicited high and well-balanced VP4e-specific antibody titers in mice directed against the three predominant HRV P types. The resulting antisera neutralized the three HRV prototypes at high titers; greater than 4-fold higher than the neutralizing responses induced by a trivalent vaccine consisting of the S 60 -VP8* PVNPs. Finally, the trivalent S-VP4e PVNP vaccine provided 90−100% protection against diarrhea caused by HRV challenge. Our data supports the trivalent S-VP4e PVNPs as a promising nonreplicating HRV vaccine candidate for parenteral delivery to circumvent the suboptimal immunization issues of all present live HRV vaccines. The established PVNP-permissive cell and PVNP-glycan binding assays will be instrumental for further investigating HRV−host cell interactions and neutralizing effects of VP4-specific antibodies and antivirals.

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“…Among the approaches to increase breadth and potency, vaccines based on self-assembling nanoparticles appear to be especially promising [ 16 , 17 , 18 , 19 , 20 , 21 , 22 , 23 , 24 , 25 , 26 , 27 , 28 , 29 , 30 , 31 , 32 , 33 , 34 , 35 , 36 , 37 , 38 , 39 ]. Such nanoparticle vaccines have multiple advantages.…”

Section: Introductionmentioning

confidence: 99%

Extraordinary Titer and Broad Anti-SARS-CoV-2 Neutralization Induced by Stabilized RBD Nanoparticles from Strain BA.5

Wang,

Zhang,

et al. 2023

Vaccines

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The receptor-binding domain (RBD) of the SARS-CoV-2 spike is a primary target of neutralizing antibodies and a key component of licensed vaccines. Substantial mutations in RBD, however, enable current variants to escape immunogenicity generated by vaccination with the ancestral (WA1) strain. Here, we produce and assess self-assembling nanoparticles displaying RBDs from WA1 and BA.5 strains by using the SpyTag:SpyCatcher system for coupling. We observed both WA1- and BA.5-RBD nanoparticles to degrade substantially after a few days at 37 °C. Incorporation of nine RBD-stabilizing mutations, however, increased yield ~five-fold and stability such that more than 50% of either the WA1- or BA.5-RBD nanoparticle was retained after one week at 37 °C. Murine immunizations revealed that the stabilized RBD-nanoparticles induced ~100-fold higher autologous neutralization titers than the prefusion-stabilized (S2P) spike at a 2 μg dose. Even at a 25-fold lower dose where S2P-induced neutralization titers were below the detection limit, the stabilized BA.5-RBD nanoparticle induced homologous titers of 12,795 ID50 and heterologous titers against WA1 of 1767 ID50. Assessment against a panel of β-coronavirus variants revealed both the stabilized BA.5-RBD nanoparticle and the stabilized WA1-BA.5-(mosaic)-RBD nanoparticle to elicit much higher neutralization breadth than the stabilized WA1-RBD nanoparticle. The extraordinary titer and high neutralization breadth elicited by stabilized RBD nanoparticles from strain BA.5 make them strong candidates for next-generation COVID-19 vaccines.

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A bioengineered pseudovirus nanoparticle displaying SARS‐CoV 2 RBD fully protects mice from mortality and weight loss caused by SARS‐CoV 2 challenge

Cited by 4 publications

References 77 publications

Pseudovirus Nanoparticles Displaying Plasmodium Circumsporozoite Proteins Elicited High Titers of Sporozoite-Binding Antibody

Pseudovirus Nanoparticles Displaying Plasmodium Circumsporozoite Proteins Elicited High Titers of Sporozoite-Binding Antibody

A Viral Protein 4-Based Trivalent Nanoparticle Vaccine Elicited High and Broad Immune Responses and Protective Immunity against the Predominant Rotaviruses

Extraordinary Titer and Broad Anti-SARS-CoV-2 Neutralization Induced by Stabilized RBD Nanoparticles from Strain BA.5

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