Adaptation of a transmitted/founder simian-human immunodeficiency virus for enhanced replication in rhesus macaques

Anya Bauer; Emily Lindemuth; Francesco Elia Marino; Ryan Krause; Jaimy Joy; Steffen S. Docken; Suvadip Mallick; Kevin McCormick; Clinton Holt; Ivelin Georgiev; Barbara Felber; Brandon F. Keele; Ronald Veazey; Miles P. Davenport; Hui Li; George M. Shaw; Katharine J. Bar

doi:10.1371/journal.ppat.1011059

Adaptation of a transmitted/founder simian-human immunodeficiency virus for enhanced replication in rhesus macaques

Anya Bauer, Emily Lindemuth, Francesco Elia Marino, Ryan Krause, Jaimy Joy, Steffen S. Docken, Suvadip Mallick, Kevin McCormick, Clinton Holt, Ivelin Georgiev, Barbara Felber, Brandon F. Keele, Ronald Veazey, Miles P. Davenport, Hui Li, George M. Shaw, Katharine J. Bar^*

^*Corresponding author for this work

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

Abstract

Transmitted/founder (TF) simian-human immunodeficiency viruses (SHIVs) express HIV-1 envelopes modified at position 375 to efficiently infect rhesus macaques while preserving authentic HIV-1 Env biology. SHIV.C.CH505 is an extensively characterized virus encoding the TF HIV-1 Env CH505 mutated at position 375 shown to recapitulate key features of HIV-1 immunobiology, including CCR5-tropism, a tier 2 neutralization profile, reproducible early viral kinetics, and authentic immune responses. SHIV.C.CH505 is used frequently in nonhuman primate studies of HIV, but viral loads after months of infection are variable and typically lower than those in people living with HIV. We hypothesized that additional mutations besides Δ375 might further enhance virus fitness without compromising essential components of CH505 Env biology. From sequence analysis of SHIV.C.CH505-infected macaques across multiple experiments, we identified a signature of envelope mutations associated with higher viremia. We then used short-term in vivo mutational selection and competition to identify a minimally adapted SHIV.C.CH505 with just five amino acid changes that substantially improve virus replication fitness in macaques. Next, we validated the performance of the adapted SHIV in vitro and in vivo and identified the mechanistic contributions of selected mutations. In vitro, the adapted SHIV shows improved virus entry, enhanced replication on primary rhesus cells, and preserved neutralization profiles. In vivo, the minimally adapted virus rapidly outcompetes the parental SHIV with an estimated growth advantage of 0.14 days-¹ and persists through suppressive antiretroviral therapy to rebound at treatment interruption. Here, we report the successful generation of a well-characterized, minimally adapted virus, termed SHIV.C.CH505.v2, with enhanced replication fitness and preserved native Env properties that can serve as a new reagent for NHP studies of HIV-1 transmission, pathogenesis, and cure.

Original language	English
Article number	e1011059
Journal	PLoS Pathogens
Volume	19
Issue number	7 July
DOIs	https://doi.org/10.1371/journal.ppat.1011059
Publication status	Published - Jul 2023
Externally published	Yes

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Bauer, A., Lindemuth, E., Marino, F. E., Krause, R., Joy, J., Docken, S. S., Mallick, S., McCormick, K., Holt, C., Georgiev, I., Felber, B., Keele, B. F., Veazey, R., Davenport, M. P., Li, H., Shaw, G. M., & Bar, K. J. (2023). Adaptation of a transmitted/founder simian-human immunodeficiency virus for enhanced replication in rhesus macaques. PLoS Pathogens, 19(7 July), Article e1011059. https://doi.org/10.1371/journal.ppat.1011059

@article{8088c503782549f8832e13aae412e02c,

title = "Adaptation of a transmitted/founder simian-human immunodeficiency virus for enhanced replication in rhesus macaques",

abstract = "Transmitted/founder (TF) simian-human immunodeficiency viruses (SHIVs) express HIV-1 envelopes modified at position 375 to efficiently infect rhesus macaques while preserving authentic HIV-1 Env biology. SHIV.C.CH505 is an extensively characterized virus encoding the TF HIV-1 Env CH505 mutated at position 375 shown to recapitulate key features of HIV-1 immunobiology, including CCR5-tropism, a tier 2 neutralization profile, reproducible early viral kinetics, and authentic immune responses. SHIV.C.CH505 is used frequently in nonhuman primate studies of HIV, but viral loads after months of infection are variable and typically lower than those in people living with HIV. We hypothesized that additional mutations besides Δ375 might further enhance virus fitness without compromising essential components of CH505 Env biology. From sequence analysis of SHIV.C.CH505-infected macaques across multiple experiments, we identified a signature of envelope mutations associated with higher viremia. We then used short-term in vivo mutational selection and competition to identify a minimally adapted SHIV.C.CH505 with just five amino acid changes that substantially improve virus replication fitness in macaques. Next, we validated the performance of the adapted SHIV in vitro and in vivo and identified the mechanistic contributions of selected mutations. In vitro, the adapted SHIV shows improved virus entry, enhanced replication on primary rhesus cells, and preserved neutralization profiles. In vivo, the minimally adapted virus rapidly outcompetes the parental SHIV with an estimated growth advantage of 0.14 days-1 and persists through suppressive antiretroviral therapy to rebound at treatment interruption. Here, we report the successful generation of a well-characterized, minimally adapted virus, termed SHIV.C.CH505.v2, with enhanced replication fitness and preserved native Env properties that can serve as a new reagent for NHP studies of HIV-1 transmission, pathogenesis, and cure.",

author = "Anya Bauer and Emily Lindemuth and Marino, {Francesco Elia} and Ryan Krause and Jaimy Joy and Docken, {Steffen S.} and Suvadip Mallick and Kevin McCormick and Clinton Holt and Ivelin Georgiev and Barbara Felber and Keele, {Brandon F.} and Ronald Veazey and Davenport, {Miles P.} and Hui Li and Shaw, {George M.} and Bar, {Katharine J.}",

note = "Publisher Copyright: Copyright: This is an open access article, free of all copyright, and may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose. The work is made available under the Creative Commons CC0 public domain dedication.",

year = "2023",

month = jul,

doi = "10.1371/journal.ppat.1011059",

language = "English",

volume = "19",

journal = "PLoS Pathogens",

issn = "1553-7366",

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Bauer, A, Lindemuth, E, Marino, FE, Krause, R, Joy, J, Docken, SS, Mallick, S, McCormick, K, Holt, C, Georgiev, I, Felber, B, Keele, BF, Veazey, R, Davenport, MP, Li, H, Shaw, GM & Bar, KJ 2023, 'Adaptation of a transmitted/founder simian-human immunodeficiency virus for enhanced replication in rhesus macaques', PLoS Pathogens, vol. 19, no. 7 July, e1011059. https://doi.org/10.1371/journal.ppat.1011059

TY - JOUR

T1 - Adaptation of a transmitted/founder simian-human immunodeficiency virus for enhanced replication in rhesus macaques

AU - Bauer, Anya

AU - Lindemuth, Emily

AU - Marino, Francesco Elia

AU - Krause, Ryan

AU - Joy, Jaimy

AU - Docken, Steffen S.

AU - Mallick, Suvadip

AU - McCormick, Kevin

AU - Holt, Clinton

AU - Georgiev, Ivelin

AU - Felber, Barbara

AU - Keele, Brandon F.

AU - Veazey, Ronald

AU - Davenport, Miles P.

AU - Li, Hui

AU - Shaw, George M.

AU - Bar, Katharine J.

N1 - Publisher Copyright: Copyright: This is an open access article, free of all copyright, and may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose. The work is made available under the Creative Commons CC0 public domain dedication.

PY - 2023/7

Y1 - 2023/7

N2 - Transmitted/founder (TF) simian-human immunodeficiency viruses (SHIVs) express HIV-1 envelopes modified at position 375 to efficiently infect rhesus macaques while preserving authentic HIV-1 Env biology. SHIV.C.CH505 is an extensively characterized virus encoding the TF HIV-1 Env CH505 mutated at position 375 shown to recapitulate key features of HIV-1 immunobiology, including CCR5-tropism, a tier 2 neutralization profile, reproducible early viral kinetics, and authentic immune responses. SHIV.C.CH505 is used frequently in nonhuman primate studies of HIV, but viral loads after months of infection are variable and typically lower than those in people living with HIV. We hypothesized that additional mutations besides Δ375 might further enhance virus fitness without compromising essential components of CH505 Env biology. From sequence analysis of SHIV.C.CH505-infected macaques across multiple experiments, we identified a signature of envelope mutations associated with higher viremia. We then used short-term in vivo mutational selection and competition to identify a minimally adapted SHIV.C.CH505 with just five amino acid changes that substantially improve virus replication fitness in macaques. Next, we validated the performance of the adapted SHIV in vitro and in vivo and identified the mechanistic contributions of selected mutations. In vitro, the adapted SHIV shows improved virus entry, enhanced replication on primary rhesus cells, and preserved neutralization profiles. In vivo, the minimally adapted virus rapidly outcompetes the parental SHIV with an estimated growth advantage of 0.14 days-1 and persists through suppressive antiretroviral therapy to rebound at treatment interruption. Here, we report the successful generation of a well-characterized, minimally adapted virus, termed SHIV.C.CH505.v2, with enhanced replication fitness and preserved native Env properties that can serve as a new reagent for NHP studies of HIV-1 transmission, pathogenesis, and cure.

AB - Transmitted/founder (TF) simian-human immunodeficiency viruses (SHIVs) express HIV-1 envelopes modified at position 375 to efficiently infect rhesus macaques while preserving authentic HIV-1 Env biology. SHIV.C.CH505 is an extensively characterized virus encoding the TF HIV-1 Env CH505 mutated at position 375 shown to recapitulate key features of HIV-1 immunobiology, including CCR5-tropism, a tier 2 neutralization profile, reproducible early viral kinetics, and authentic immune responses. SHIV.C.CH505 is used frequently in nonhuman primate studies of HIV, but viral loads after months of infection are variable and typically lower than those in people living with HIV. We hypothesized that additional mutations besides Δ375 might further enhance virus fitness without compromising essential components of CH505 Env biology. From sequence analysis of SHIV.C.CH505-infected macaques across multiple experiments, we identified a signature of envelope mutations associated with higher viremia. We then used short-term in vivo mutational selection and competition to identify a minimally adapted SHIV.C.CH505 with just five amino acid changes that substantially improve virus replication fitness in macaques. Next, we validated the performance of the adapted SHIV in vitro and in vivo and identified the mechanistic contributions of selected mutations. In vitro, the adapted SHIV shows improved virus entry, enhanced replication on primary rhesus cells, and preserved neutralization profiles. In vivo, the minimally adapted virus rapidly outcompetes the parental SHIV with an estimated growth advantage of 0.14 days-1 and persists through suppressive antiretroviral therapy to rebound at treatment interruption. Here, we report the successful generation of a well-characterized, minimally adapted virus, termed SHIV.C.CH505.v2, with enhanced replication fitness and preserved native Env properties that can serve as a new reagent for NHP studies of HIV-1 transmission, pathogenesis, and cure.

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U2 - 10.1371/journal.ppat.1011059

DO - 10.1371/journal.ppat.1011059

M3 - Article

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SN - 1553-7366

VL - 19

JO - PLoS Pathogens

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ER -

Adaptation of a transmitted/founder simian-human immunodeficiency virus for enhanced replication in rhesus macaques

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