Efficient mRNA delivery to resting T cells to reverse HIV latency

Paula M. Cevaal; Stanislav Kan; Bridget M. Fisher; Michael A. Moso; Abigail Tan; Haiyin Liu; Abdalla Ali; Kiho Tanaka; Rory A. Shepherd; Youry Kim; Jesslyn Ong; Denzil L. Furtado; Marvin Holz; Damian F.J. Purcell; Joshua M.L. Casan; Thomas Payne; Wei Zhao; Mohamed Fareh; James H. McMahon; Steven G. Deeks; Rebecca Hoh; Sushama Telwatte; Colin W. Pouton; Angus P.R. Johnston; Frank Caruso; Jori Symons; Sharon R. Lewin; Michael Roche

doi:10.1038/s41467-025-60001-2

Efficient mRNA delivery to resting T cells to reverse HIV latency

Paula M. Cevaal, Stanislav Kan, Bridget M. Fisher, Michael A. Moso, Abigail Tan, Haiyin Liu, Abdalla Ali, Kiho Tanaka, Rory A. Shepherd, Youry Kim, Jesslyn Ong, Denzil L. Furtado, Marvin Holz, Damian F.J. Purcell, Joshua M.L. Casan, Thomas Payne, Wei Zhao, Mohamed Fareh, James H. McMahon, Steven G. DeeksRebecca Hoh, Sushama Telwatte, Colin W. Pouton, Angus P.R. Johnston, Frank Caruso, Jori Symons, Sharon R. Lewin^*, Michael Roche

^*Corresponding author for this work

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

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Abstract

A major hurdle to curing HIV is the persistence of integrated proviruses in resting CD4⁺ T cells that remain in a transcriptionally silent, latent state. One strategy to eradicate latent HIV is to activate viral transcription, followed by elimination of infected cells through virus-mediated cytotoxicity or immune-mediated clearance. We hypothesised that mRNA-lipid nanoparticle (LNP) technology would provide an opportunity to deliver mRNA encoding proteins able to reverse HIV latency in resting CD4⁺ T cells. Here we develop an LNP formulation (LNP X) with unprecedented potency to deliver mRNA to hard-to-transfect resting CD4⁺ T cells in the absence of cellular toxicity or activation. Encapsulating an mRNA encoding the HIV Tat protein, an activator of HIV transcription, LNP X enhances HIV transcription in ex vivo CD4⁺ T cells from people living with HIV. LNP X further enables the delivery of clustered regularly interspaced short palindromic repeats (CRISPR) activation machinery to modulate both viral and host gene transcription. These findings offer potential for the development of a range of nucleic acid-based T cell therapeutics.

Original language	English
Article number	4979
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-60001-2
Publication status	Published - Dec 2025

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Cevaal, P. M., Kan, S., Fisher, B. M., Moso, M. A., Tan, A., Liu, H., Ali, A., Tanaka, K., Shepherd, R. A., Kim, Y., Ong, J., Furtado, D. L., Holz, M., Purcell, D. F. J., Casan, J. M. L., Payne, T., Zhao, W., Fareh, M., McMahon, J. H., ... Roche, M. (2025). Efficient mRNA delivery to resting T cells to reverse HIV latency. Nature Communications, 16(1), Article 4979. https://doi.org/10.1038/s41467-025-60001-2

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title = "Efficient mRNA delivery to resting T cells to reverse HIV latency",

abstract = "A major hurdle to curing HIV is the persistence of integrated proviruses in resting CD4+ T cells that remain in a transcriptionally silent, latent state. One strategy to eradicate latent HIV is to activate viral transcription, followed by elimination of infected cells through virus-mediated cytotoxicity or immune-mediated clearance. We hypothesised that mRNA-lipid nanoparticle (LNP) technology would provide an opportunity to deliver mRNA encoding proteins able to reverse HIV latency in resting CD4+ T cells. Here we develop an LNP formulation (LNP X) with unprecedented potency to deliver mRNA to hard-to-transfect resting CD4+ T cells in the absence of cellular toxicity or activation. Encapsulating an mRNA encoding the HIV Tat protein, an activator of HIV transcription, LNP X enhances HIV transcription in ex vivo CD4+ T cells from people living with HIV. LNP X further enables the delivery of clustered regularly interspaced short palindromic repeats (CRISPR) activation machinery to modulate both viral and host gene transcription. These findings offer potential for the development of a range of nucleic acid-based T cell therapeutics.",

author = "Cevaal, \{Paula M.\} and Stanislav Kan and Fisher, \{Bridget M.\} and Moso, \{Michael A.\} and Abigail Tan and Haiyin Liu and Abdalla Ali and Kiho Tanaka and Shepherd, \{Rory A.\} and Youry Kim and Jesslyn Ong and Furtado, \{Denzil L.\} and Marvin Holz and Purcell, \{Damian F.J.\} and Casan, \{Joshua M.L.\} and Thomas Payne and Wei Zhao and Mohamed Fareh and McMahon, \{James H.\} and Deeks, \{Steven G.\} and Rebecca Hoh and Sushama Telwatte and Pouton, \{Colin W.\} and Johnston, \{Angus P.R.\} and Frank Caruso and Jori Symons and Lewin, \{Sharon R.\} and Michael Roche",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = dec,

doi = "10.1038/s41467-025-60001-2",

language = "English",

volume = "16",

journal = "Nature Communications",

issn = "2041-1723",

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Cevaal, PM, Kan, S, Fisher, BM, Moso, MA, Tan, A, Liu, H, Ali, A, Tanaka, K, Shepherd, RA, Kim, Y, Ong, J, Furtado, DL, Holz, M, Purcell, DFJ, Casan, JML, Payne, T, Zhao, W, Fareh, M, McMahon, JH, Deeks, SG, Hoh, R, Telwatte, S, Pouton, CW, Johnston, APR, Caruso, F, Symons, J, Lewin, SR & Roche, M 2025, 'Efficient mRNA delivery to resting T cells to reverse HIV latency', Nature Communications, vol. 16, no. 1, 4979. https://doi.org/10.1038/s41467-025-60001-2

TY - JOUR

T1 - Efficient mRNA delivery to resting T cells to reverse HIV latency

AU - Cevaal, Paula M.

AU - Kan, Stanislav

AU - Fisher, Bridget M.

AU - Moso, Michael A.

AU - Tan, Abigail

AU - Liu, Haiyin

AU - Ali, Abdalla

AU - Tanaka, Kiho

AU - Shepherd, Rory A.

AU - Kim, Youry

AU - Ong, Jesslyn

AU - Furtado, Denzil L.

AU - Holz, Marvin

AU - Purcell, Damian F.J.

AU - Casan, Joshua M.L.

AU - Payne, Thomas

AU - Zhao, Wei

AU - Fareh, Mohamed

AU - McMahon, James H.

AU - Deeks, Steven G.

AU - Hoh, Rebecca

AU - Telwatte, Sushama

AU - Pouton, Colin W.

AU - Johnston, Angus P.R.

AU - Caruso, Frank

AU - Symons, Jori

AU - Lewin, Sharon R.

AU - Roche, Michael

PY - 2025/12

Y1 - 2025/12

N2 - A major hurdle to curing HIV is the persistence of integrated proviruses in resting CD4+ T cells that remain in a transcriptionally silent, latent state. One strategy to eradicate latent HIV is to activate viral transcription, followed by elimination of infected cells through virus-mediated cytotoxicity or immune-mediated clearance. We hypothesised that mRNA-lipid nanoparticle (LNP) technology would provide an opportunity to deliver mRNA encoding proteins able to reverse HIV latency in resting CD4+ T cells. Here we develop an LNP formulation (LNP X) with unprecedented potency to deliver mRNA to hard-to-transfect resting CD4+ T cells in the absence of cellular toxicity or activation. Encapsulating an mRNA encoding the HIV Tat protein, an activator of HIV transcription, LNP X enhances HIV transcription in ex vivo CD4+ T cells from people living with HIV. LNP X further enables the delivery of clustered regularly interspaced short palindromic repeats (CRISPR) activation machinery to modulate both viral and host gene transcription. These findings offer potential for the development of a range of nucleic acid-based T cell therapeutics.

AB - A major hurdle to curing HIV is the persistence of integrated proviruses in resting CD4+ T cells that remain in a transcriptionally silent, latent state. One strategy to eradicate latent HIV is to activate viral transcription, followed by elimination of infected cells through virus-mediated cytotoxicity or immune-mediated clearance. We hypothesised that mRNA-lipid nanoparticle (LNP) technology would provide an opportunity to deliver mRNA encoding proteins able to reverse HIV latency in resting CD4+ T cells. Here we develop an LNP formulation (LNP X) with unprecedented potency to deliver mRNA to hard-to-transfect resting CD4+ T cells in the absence of cellular toxicity or activation. Encapsulating an mRNA encoding the HIV Tat protein, an activator of HIV transcription, LNP X enhances HIV transcription in ex vivo CD4+ T cells from people living with HIV. LNP X further enables the delivery of clustered regularly interspaced short palindromic repeats (CRISPR) activation machinery to modulate both viral and host gene transcription. These findings offer potential for the development of a range of nucleic acid-based T cell therapeutics.

UR - https://www.scopus.com/pages/publications/105006921172

U2 - 10.1038/s41467-025-60001-2

DO - 10.1038/s41467-025-60001-2

M3 - Article

C2 - 40442114

AN - SCOPUS:105006921172

SN - 2041-1723

VL - 16

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 4979

ER -

Efficient mRNA delivery to resting T cells to reverse HIV latency

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