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Augmented humoral responses to HIV Env trimers delivered as transmembrane immunogens by self-replicating RNA

Augmented humoral responses to HIV Env trimers delivered as transmembrane immunogens by self-replicating RNA
Augmented humoral responses to HIV Env trimers delivered as transmembrane immunogens by self-replicating RNA
mRNA vaccines have emerged as an important platform for vaccine development. Unlike protein subunit vaccines, mRNA-expressed antigens can be expressed in either secreted or transmembrane (TM) forms mimicking a viral envelope (Env) protein. Here, we investigated the impact of antigen expression format on the antigenicity profile, glycosylation, and immunogenicity of stabilized HIV Env trimer immunogens expressed from self-replicating RNA (replicon) vaccines. Replicon-encoded trimers in both forms exhibited proper folding, and replicon-expressed secreted trimers exhibited glycosylation patterns largely consistent with recombinant trimer protein, although with enrichment of complex glycans over high mannose at some sites. Both formats were highly immunogenic in mice, eliciting comparable serum antibody and T cell responses. Interestingly, the TM format initiated smaller germinal center (GC) responses, but these GCs were enriched for trimer-binding B cells compared to secreted trimer vaccines. In a B cell receptor knockin adoptive transfer model for assessing germline targeting, the replicon-encoded TM trimer elicited a greater frequency of epitope-targeting antibodies and recruited broadly neutralizing antibody precursor B cells to the GC response more efficiently compared to the replicon-encoded secreted trimer or protein trimer combined with adjuvant. These results indicate that the form of immunogen expression can impact key elements of immune responses to RNA vaccines.
BG18, HIV bnAbs, HIV trimer, RNA vaccines, expression form, replicon RNA
1525-0016
4858-4873
Yousefpour, Parisa
44920e29-e230-4360-bb86-07d928b54140
Ghosh, Amrit Raj
e9cb3bcc-cb54-45af-a7f3-9f3656ed3553
Chawla, Himanshi
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Yeung, Rachel
d95981cd-f461-48fa-97ff-11fe3b946503
Gregory, Justin
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Si, Kristen
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Remba, Tanaka K
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Rodrigues, Kristen A
e52bdd9a-da6b-459b-ac94-f480c374162a
Melo, Mariane B
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Dye, Jonathan
e188f037-0737-4d99-a5be-05b23cc02cac
Steichen, Jon M
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Zhang, Yuebao
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Dong, Yizhou
40ad73c7-d931-4eab-8c8c-b227ee9cbd82
Crispin, Max
cd980957-0943-4b89-b2b2-710f01f33bc9
Schief, William R
f7dacd3e-5479-4d93-b7a4-50403827285b
Batista, Facundo D
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Irvine, Darrell J
63f295b5-7d49-4c85-9e9b-4797cebf5f89
Yousefpour, Parisa
44920e29-e230-4360-bb86-07d928b54140
Ghosh, Amrit Raj
e9cb3bcc-cb54-45af-a7f3-9f3656ed3553
Chawla, Himanshi
07b9e983-4c35-4314-999d-fe3222a6c03b
Yeung, Rachel
d95981cd-f461-48fa-97ff-11fe3b946503
Gregory, Justin
8008613e-992f-408e-b5dc-ecfeae0c2b94
Si, Kristen
7aac3071-3906-4b1e-872a-e734bf3db0a0
Remba, Tanaka K
cacbba6d-dfa4-4c80-974d-8685b34e390b
Rodrigues, Kristen A
e52bdd9a-da6b-459b-ac94-f480c374162a
Melo, Mariane B
b98d4670-f268-4712-96ee-88f239c58f3e
Dye, Jonathan
e188f037-0737-4d99-a5be-05b23cc02cac
Steichen, Jon M
53e5c7c4-5a1e-4f4e-8d03-1486b670b425
Zhang, Yuebao
5f2def11-ee4d-4b79-b665-e0cd66004f88
Dong, Yizhou
40ad73c7-d931-4eab-8c8c-b227ee9cbd82
Crispin, Max
cd980957-0943-4b89-b2b2-710f01f33bc9
Schief, William R
f7dacd3e-5479-4d93-b7a4-50403827285b
Batista, Facundo D
4b2e1e73-d3b5-41bf-9381-180cdbd45db2
Irvine, Darrell J
63f295b5-7d49-4c85-9e9b-4797cebf5f89

Yousefpour, Parisa, Ghosh, Amrit Raj, Chawla, Himanshi, Yeung, Rachel, Gregory, Justin, Si, Kristen, Remba, Tanaka K, Rodrigues, Kristen A, Melo, Mariane B, Dye, Jonathan, Steichen, Jon M, Zhang, Yuebao, Dong, Yizhou, Crispin, Max, Schief, William R, Batista, Facundo D and Irvine, Darrell J (2025) Augmented humoral responses to HIV Env trimers delivered as transmembrane immunogens by self-replicating RNA. Molecular Therapy, 33 (10), 4858-4873. (doi:10.1016/j.ymthe.2025.07.036).

Record type: Article

Abstract

mRNA vaccines have emerged as an important platform for vaccine development. Unlike protein subunit vaccines, mRNA-expressed antigens can be expressed in either secreted or transmembrane (TM) forms mimicking a viral envelope (Env) protein. Here, we investigated the impact of antigen expression format on the antigenicity profile, glycosylation, and immunogenicity of stabilized HIV Env trimer immunogens expressed from self-replicating RNA (replicon) vaccines. Replicon-encoded trimers in both forms exhibited proper folding, and replicon-expressed secreted trimers exhibited glycosylation patterns largely consistent with recombinant trimer protein, although with enrichment of complex glycans over high mannose at some sites. Both formats were highly immunogenic in mice, eliciting comparable serum antibody and T cell responses. Interestingly, the TM format initiated smaller germinal center (GC) responses, but these GCs were enriched for trimer-binding B cells compared to secreted trimer vaccines. In a B cell receptor knockin adoptive transfer model for assessing germline targeting, the replicon-encoded TM trimer elicited a greater frequency of epitope-targeting antibodies and recruited broadly neutralizing antibody precursor B cells to the GC response more efficiently compared to the replicon-encoded secreted trimer or protein trimer combined with adjuvant. These results indicate that the form of immunogen expression can impact key elements of immune responses to RNA vaccines.

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PIIS1525001625005726 - Version of Record
Available under License Creative Commons Attribution.
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Accepted/In Press date: 24 July 2025
e-pub ahead of print date: 29 July 2025
Published date: 1 October 2025
Additional Information: Publisher Copyright: © 2025 The Author(s)
Keywords: BG18, HIV bnAbs, HIV trimer, RNA vaccines, expression form, replicon RNA
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Identifiers

Local EPrints ID: 505947
URI: http://eprints.soton.ac.uk/id/eprint/505947
DOI: doi:10.1016/j.ymthe.2025.07.036
ISSN: 1525-0016
PURE UUID: 63a8890e-60c5-448e-a0b5-951a5301e55d
ORCID for Himanshi Chawla: ORCID iD orcid.org/0000-0001-9828-6593
ORCID for Max Crispin: ORCID iD orcid.org/0000-0002-1072-2694

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Date deposited: 23 Oct 2025 17:07
Last modified: 24 Oct 2025 01:53

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Contributors

Author: Parisa Yousefpour
Author: Amrit Raj Ghosh
Author: Himanshi Chawla ORCID iD
Author: Rachel Yeung
Author: Justin Gregory
Author: Kristen Si
Author: Tanaka K Remba
Author: Kristen A Rodrigues
Author: Mariane B Melo
Author: Jonathan Dye
Author: Jon M Steichen
Author: Yuebao Zhang
Author: Yizhou Dong
Author: Max Crispin ORCID iD
Author: William R Schief
Author: Facundo D Batista
Author: Darrell J Irvine

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