Chimeric Fusion (F) and Attachment (G) Glycoprotein Antigen Delivery by mRNA as a Candidate Nipah Vaccine

Rebecca J. Loomis; Anthony T. DiPiazza; Samantha Falcone; Tracy J. Ruckwardt; Kaitlyn M. Morabito; Olubukola M. Abiona; Lauren A. Chang; Ria T. Caringal; Vladimir Presnyak; Elisabeth Narayanan; Yaroslav Tsybovsky; Deepika Nair; Geoffrey B. Hutchinson; Guillaume B.E. Stewart-Jones; Lisa A. Kueltzo; Sunny Himansu; John R. Mascola; Andrea Carfi; Barney S. Graham

doi:10.3389/fimmu.2021.772864

Chimeric Fusion (F) and Attachment (G) Glycoprotein Antigen Delivery by mRNA as a Candidate Nipah Vaccine

Rebecca J. Loomis
, Anthony T. DiPiazza
, Samantha Falcone
, Tracy J. Ruckwardt
, Kaitlyn M. Morabito
, Olubukola M. Abiona
, Lauren A. Chang
, Ria T. Caringal
, Vladimir Presnyak
, Elisabeth Narayanan
, Yaroslav Tsybovsky
, Deepika Nair
, Geoffrey B. Hutchinson
, Guillaume B.E. Stewart-Jones
, Lisa A. Kueltzo
, Sunny Himansu
, John R. Mascola
, Andrea Carfi
, Barney S. Graham

Research output: Contribution to journal › Article › peer-review

50 Scopus citations

Abstract

Nipah virus (NiV) represents a significant pandemic threat with zoonotic transmission from bats-to-humans with almost annual regional outbreaks characterized by documented human-to-human transmission and high fatality rates. Currently, no vaccine against NiV has been approved. Structure-based design and protein engineering principles were applied to stabilize the fusion (F) protein in its prefusion trimeric conformation (pre-F) to improve expression and increase immunogenicity. We covalently linked the stabilized pre-F through trimerization domains at the C-terminus to three attachment protein (G) monomers, forming a chimeric design. These studies detailed here focus on mRNA delivery of NiV immunogens in mice, assessment of mRNA immunogen-specific design elements and their effects on humoral and cellular immunogenicity. The pre-F/G chimera elicited a strong neutralizing antibody response and a superior NiV-specific Tfh and other effector T cell response compared to G alone across both the mRNA and protein platforms. These findings enabled final candidate selection of pre-F/G Fd for clinical development.

Original language	English
Article number	772864
Journal	Frontiers in Immunology
Volume	12
DOIs	https://doi.org/10.3389/fimmu.2021.772864
State	Published - 8 Dec 2021
Externally published	Yes

Keywords

Nipah virus (NiV)
Pre-F/G
T cell responses
mRNA
pandemic preparedness and response
structure-based immunogen design
vaccine

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10.3389/fimmu.2021.772864

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Loomis, R. J., DiPiazza, A. T., Falcone, S., Ruckwardt, T. J., Morabito, K. M., Abiona, O. M., Chang, L. A., Caringal, R. T., Presnyak, V., Narayanan, E., Tsybovsky, Y., Nair, D., Hutchinson, G. B., Stewart-Jones, G. B. E., Kueltzo, L. A., Himansu, S., Mascola, J. R., Carfi, A., & Graham, B. S. (2021). Chimeric Fusion (F) and Attachment (G) Glycoprotein Antigen Delivery by mRNA as a Candidate Nipah Vaccine. Frontiers in Immunology, 12, Article 772864. https://doi.org/10.3389/fimmu.2021.772864

@article{b6cfed37154b4638b5c0161a628ddd64,

title = "Chimeric Fusion (F) and Attachment (G) Glycoprotein Antigen Delivery by mRNA as a Candidate Nipah Vaccine",

abstract = "Nipah virus (NiV) represents a significant pandemic threat with zoonotic transmission from bats-to-humans with almost annual regional outbreaks characterized by documented human-to-human transmission and high fatality rates. Currently, no vaccine against NiV has been approved. Structure-based design and protein engineering principles were applied to stabilize the fusion (F) protein in its prefusion trimeric conformation (pre-F) to improve expression and increase immunogenicity. We covalently linked the stabilized pre-F through trimerization domains at the C-terminus to three attachment protein (G) monomers, forming a chimeric design. These studies detailed here focus on mRNA delivery of NiV immunogens in mice, assessment of mRNA immunogen-specific design elements and their effects on humoral and cellular immunogenicity. The pre-F/G chimera elicited a strong neutralizing antibody response and a superior NiV-specific Tfh and other effector T cell response compared to G alone across both the mRNA and protein platforms. These findings enabled final candidate selection of pre-F/G Fd for clinical development.",

keywords = "Nipah virus (NiV), Pre-F/G, T cell responses, mRNA, pandemic preparedness and response, structure-based immunogen design, vaccine",

author = "Loomis, \{Rebecca J.\} and DiPiazza, \{Anthony T.\} and Samantha Falcone and Ruckwardt, \{Tracy J.\} and Morabito, \{Kaitlyn M.\} and Abiona, \{Olubukola M.\} and Chang, \{Lauren A.\} and Caringal, \{Ria T.\} and Vladimir Presnyak and Elisabeth Narayanan and Yaroslav Tsybovsky and Deepika Nair and Hutchinson, \{Geoffrey B.\} and Stewart-Jones, \{Guillaume B.E.\} and Kueltzo, \{Lisa A.\} and Sunny Himansu and Mascola, \{John R.\} and Andrea Carfi and Graham, \{Barney S.\}",

note = "Publisher Copyright: Copyright {\textcopyright} 2021 Loomis, DiPiazza, Falcone, Ruckwardt, Morabito, Abiona, Chang, Caringal, Presnyak, Narayanan, Tsybovsky, Nair, Hutchinson, Stewart-Jones, Kueltzo, Himansu, Mascola, Carfi and Graham.",

year = "2021",

month = dec,

day = "8",

doi = "10.3389/fimmu.2021.772864",

language = "English",

volume = "12",

journal = "Frontiers in Immunology",

issn = "1664-3224",

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Loomis, RJ, DiPiazza, AT, Falcone, S, Ruckwardt, TJ, Morabito, KM, Abiona, OM, Chang, LA, Caringal, RT, Presnyak, V, Narayanan, E, Tsybovsky, Y, Nair, D, Hutchinson, GB, Stewart-Jones, GBE, Kueltzo, LA, Himansu, S, Mascola, JR, Carfi, A & Graham, BS 2021, 'Chimeric Fusion (F) and Attachment (G) Glycoprotein Antigen Delivery by mRNA as a Candidate Nipah Vaccine', Frontiers in Immunology, vol. 12, 772864. https://doi.org/10.3389/fimmu.2021.772864

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T1 - Chimeric Fusion (F) and Attachment (G) Glycoprotein Antigen Delivery by mRNA as a Candidate Nipah Vaccine

AU - Loomis, Rebecca J.

AU - DiPiazza, Anthony T.

AU - Falcone, Samantha

AU - Ruckwardt, Tracy J.

AU - Morabito, Kaitlyn M.

AU - Abiona, Olubukola M.

AU - Chang, Lauren A.

AU - Caringal, Ria T.

AU - Presnyak, Vladimir

AU - Narayanan, Elisabeth

AU - Tsybovsky, Yaroslav

AU - Nair, Deepika

AU - Hutchinson, Geoffrey B.

AU - Stewart-Jones, Guillaume B.E.

AU - Kueltzo, Lisa A.

AU - Himansu, Sunny

AU - Mascola, John R.

AU - Carfi, Andrea

AU - Graham, Barney S.

N1 - Publisher Copyright: Copyright © 2021 Loomis, DiPiazza, Falcone, Ruckwardt, Morabito, Abiona, Chang, Caringal, Presnyak, Narayanan, Tsybovsky, Nair, Hutchinson, Stewart-Jones, Kueltzo, Himansu, Mascola, Carfi and Graham.

PY - 2021/12/8

Y1 - 2021/12/8

N2 - Nipah virus (NiV) represents a significant pandemic threat with zoonotic transmission from bats-to-humans with almost annual regional outbreaks characterized by documented human-to-human transmission and high fatality rates. Currently, no vaccine against NiV has been approved. Structure-based design and protein engineering principles were applied to stabilize the fusion (F) protein in its prefusion trimeric conformation (pre-F) to improve expression and increase immunogenicity. We covalently linked the stabilized pre-F through trimerization domains at the C-terminus to three attachment protein (G) monomers, forming a chimeric design. These studies detailed here focus on mRNA delivery of NiV immunogens in mice, assessment of mRNA immunogen-specific design elements and their effects on humoral and cellular immunogenicity. The pre-F/G chimera elicited a strong neutralizing antibody response and a superior NiV-specific Tfh and other effector T cell response compared to G alone across both the mRNA and protein platforms. These findings enabled final candidate selection of pre-F/G Fd for clinical development.

AB - Nipah virus (NiV) represents a significant pandemic threat with zoonotic transmission from bats-to-humans with almost annual regional outbreaks characterized by documented human-to-human transmission and high fatality rates. Currently, no vaccine against NiV has been approved. Structure-based design and protein engineering principles were applied to stabilize the fusion (F) protein in its prefusion trimeric conformation (pre-F) to improve expression and increase immunogenicity. We covalently linked the stabilized pre-F through trimerization domains at the C-terminus to three attachment protein (G) monomers, forming a chimeric design. These studies detailed here focus on mRNA delivery of NiV immunogens in mice, assessment of mRNA immunogen-specific design elements and their effects on humoral and cellular immunogenicity. The pre-F/G chimera elicited a strong neutralizing antibody response and a superior NiV-specific Tfh and other effector T cell response compared to G alone across both the mRNA and protein platforms. These findings enabled final candidate selection of pre-F/G Fd for clinical development.

KW - Nipah virus (NiV)

KW - Pre-F/G

KW - T cell responses

KW - mRNA

KW - pandemic preparedness and response

KW - structure-based immunogen design

KW - vaccine

UR - https://www.scopus.com/pages/publications/85121599965

U2 - 10.3389/fimmu.2021.772864

DO - 10.3389/fimmu.2021.772864

M3 - Article

C2 - 34956199

AN - SCOPUS:85121599965

SN - 1664-3224

VL - 12

JO - Frontiers in Immunology

JF - Frontiers in Immunology

M1 - 772864

ER -

Chimeric Fusion (F) and Attachment (G) Glycoprotein Antigen Delivery by mRNA as a Candidate Nipah Vaccine

Abstract

Keywords

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