Computationally Selected Multivalent HIV-1 Subtype C Vaccine Protects Against Heterologous SHIV Challenge

Dieter Mielke; Marina Tuyishime; Natasha S. Kelkar; Yunfei Wang; Robert Parks; Sampa Santra; Wes Rountree; La Tonya D. Williams; Tiffany Peters; Nathan Eisel; Sheetal Sawant; Lu Zhang; Derrick Goodman; Shalini Jha; Adam Zalaquett; Pratamesh Ramasubramanian; Sherry Stanfield-Oakley; Gary Matyas; Zoltan Beck; Mangala Rao; Julie Ake; Thomas N. Denny; David C. Montefiori; Margaret E. Ackerman; Lawrence Corey; Georgia D. Tomaras; Bette T. Korber; Barton F. Haynes; Xiaoying Shen; Guido Ferrari

doi:10.3390/vaccines13030231

Computationally Selected Multivalent HIV-1 Subtype C Vaccine Protects Against Heterologous SHIV Challenge

Dieter Mielke, Marina Tuyishime, Natasha S. Kelkar, Yunfei Wang, Robert Parks, Sampa Santra, Wes Rountree, La Tonya D. Williams, Tiffany Peters, Nathan Eisel, Sheetal Sawant, Lu Zhang, Derrick Goodman, Shalini Jha, Adam Zalaquett, Pratamesh Ramasubramanian, Sherry Stanfield-Oakley, Gary Matyas, Zoltan Beck, Mangala RaoJulie Ake, Thomas N. Denny, David C. Montefiori, Margaret E. Ackerman, Lawrence Corey, Georgia D. Tomaras, Bette T. Korber, Barton F. Haynes, Xiaoying Shen^*, Guido Ferrari^*

^*Corresponding author for this work

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

Abstract

Background: The RV144 trial in Thailand is the only HIV-1 vaccine efficacy trial to date to demonstrate any efficacy. Genetic signatures suggested that antibodies targeting the variable loop 2 (V2) of the HIV-1 envelope played an important protective role. The ALVAC prime and protein boost follow-up trial in southern Africa (HVTN702) failed to show any efficacy. One hypothesis for this is the greater diversity of subtype C viruses in southern Africa relative to CRF01_AE in Thailand. Methods: Here, we determined whether an ALVAC prime with computationally selected gp120 boost immunogens maximizing coverage of diversity of subtype C viruses in the variable V1 and V2 regions (V1V2) improved the protection of non-human primates (NHPs) from a heterologous subtype C SHIV challenge compared to more traditional regimens. Results: An ALVAC prime with Trivalent subtype C gp120 boosts resulted in statistically significant protection from repeated intrarectal SHIV challenges compared to the control. Evaluation of the immunogenicity of each vaccine regimen at the time of challenge demonstrated that different gp120 combination boosts elicited similar high magnitudes of gp120 and breadth of V1V2-binding antibodies, as well as strong Fc-mediated immune responses. Low-to-no neutralization of the challenge virus was detected. A Cox proportional hazard analysis of five pre-selected immune parameters at the time of challenge identified ADCC against the challenge envelope as a correlate of protection. Systems serology analysis revealed that immune responses elicited by the different vaccine regimens were distinct and identified further correlates of resistance to infection. Conclusions: Computationally designed vaccines with maximized subtype C V1V2 coverage mediated protection of NHPs from a heterologous Tier-2 subtype C SHIV challenge.

Original language	English
Article number	231
Journal	Vaccines
Volume	13
Issue number	3
DOIs	https://doi.org/10.3390/vaccines13030231
State	Published - Mar 2025
Externally published	Yes

Keywords

correlate of protection
HIV-1
subtype C
systems serology
variable loops 1 and 2

Access to Document

10.3390/vaccines13030231

Cite this

Mielke, D., Tuyishime, M., Kelkar, N. S., Wang, Y., Parks, R., Santra, S., Rountree, W., Williams, L. T. D., Peters, T., Eisel, N., Sawant, S., Zhang, L., Goodman, D., Jha, S., Zalaquett, A., Ramasubramanian, P., Stanfield-Oakley, S., Matyas, G., Beck, Z., ... Ferrari, G. (2025). Computationally Selected Multivalent HIV-1 Subtype C Vaccine Protects Against Heterologous SHIV Challenge. Vaccines, 13(3), Article 231. https://doi.org/10.3390/vaccines13030231

@article{644cafa063824e63939d62edd896402c,

title = "Computationally Selected Multivalent HIV-1 Subtype C Vaccine Protects Against Heterologous SHIV Challenge",

abstract = "Background: The RV144 trial in Thailand is the only HIV-1 vaccine efficacy trial to date to demonstrate any efficacy. Genetic signatures suggested that antibodies targeting the variable loop 2 (V2) of the HIV-1 envelope played an important protective role. The ALVAC prime and protein boost follow-up trial in southern Africa (HVTN702) failed to show any efficacy. One hypothesis for this is the greater diversity of subtype C viruses in southern Africa relative to CRF01_AE in Thailand. Methods: Here, we determined whether an ALVAC prime with computationally selected gp120 boost immunogens maximizing coverage of diversity of subtype C viruses in the variable V1 and V2 regions (V1V2) improved the protection of non-human primates (NHPs) from a heterologous subtype C SHIV challenge compared to more traditional regimens. Results: An ALVAC prime with Trivalent subtype C gp120 boosts resulted in statistically significant protection from repeated intrarectal SHIV challenges compared to the control. Evaluation of the immunogenicity of each vaccine regimen at the time of challenge demonstrated that different gp120 combination boosts elicited similar high magnitudes of gp120 and breadth of V1V2-binding antibodies, as well as strong Fc-mediated immune responses. Low-to-no neutralization of the challenge virus was detected. A Cox proportional hazard analysis of five pre-selected immune parameters at the time of challenge identified ADCC against the challenge envelope as a correlate of protection. Systems serology analysis revealed that immune responses elicited by the different vaccine regimens were distinct and identified further correlates of resistance to infection. Conclusions: Computationally designed vaccines with maximized subtype C V1V2 coverage mediated protection of NHPs from a heterologous Tier-2 subtype C SHIV challenge.",

keywords = "correlate of protection, HIV-1, subtype C, systems serology, variable loops 1 and 2",

author = "Dieter Mielke and Marina Tuyishime and Kelkar, {Natasha S.} and Yunfei Wang and Robert Parks and Sampa Santra and Wes Rountree and Williams, {La Tonya D.} and Tiffany Peters and Nathan Eisel and Sheetal Sawant and Lu Zhang and Derrick Goodman and Shalini Jha and Adam Zalaquett and Pratamesh Ramasubramanian and Sherry Stanfield-Oakley and Gary Matyas and Zoltan Beck and Mangala Rao and Julie Ake and Denny, {Thomas N.} and Montefiori, {David C.} and Ackerman, {Margaret E.} and Lawrence Corey and Tomaras, {Georgia D.} and Korber, {Bette T.} and Haynes, {Barton F.} and Xiaoying Shen and Guido Ferrari",

note = "Publisher Copyright: {\textcopyright} 2025 by the authors.",

year = "2025",

month = mar,

doi = "10.3390/vaccines13030231",

language = "English",

volume = "13",

journal = "Vaccines",

issn = "2076-393X",

number = "3",

}

Mielke, D, Tuyishime, M, Kelkar, NS, Wang, Y, Parks, R, Santra, S, Rountree, W, Williams, LTD, Peters, T, Eisel, N, Sawant, S, Zhang, L, Goodman, D, Jha, S, Zalaquett, A, Ramasubramanian, P, Stanfield-Oakley, S, Matyas, G, Beck, Z, Rao, M, Ake, J, Denny, TN, Montefiori, DC, Ackerman, ME, Corey, L, Tomaras, GD, Korber, BT, Haynes, BF, Shen, X & Ferrari, G 2025, 'Computationally Selected Multivalent HIV-1 Subtype C Vaccine Protects Against Heterologous SHIV Challenge', Vaccines, vol. 13, no. 3, 231. https://doi.org/10.3390/vaccines13030231

TY - JOUR

T1 - Computationally Selected Multivalent HIV-1 Subtype C Vaccine Protects Against Heterologous SHIV Challenge

AU - Mielke, Dieter

AU - Tuyishime, Marina

AU - Kelkar, Natasha S.

AU - Wang, Yunfei

AU - Parks, Robert

AU - Santra, Sampa

AU - Rountree, Wes

AU - Williams, La Tonya D.

AU - Peters, Tiffany

AU - Eisel, Nathan

AU - Sawant, Sheetal

AU - Zhang, Lu

AU - Goodman, Derrick

AU - Jha, Shalini

AU - Zalaquett, Adam

AU - Ramasubramanian, Pratamesh

AU - Stanfield-Oakley, Sherry

AU - Matyas, Gary

AU - Beck, Zoltan

AU - Rao, Mangala

AU - Ake, Julie

AU - Denny, Thomas N.

AU - Montefiori, David C.

AU - Ackerman, Margaret E.

AU - Corey, Lawrence

AU - Tomaras, Georgia D.

AU - Korber, Bette T.

AU - Haynes, Barton F.

AU - Shen, Xiaoying

AU - Ferrari, Guido

PY - 2025/3

Y1 - 2025/3

N2 - Background: The RV144 trial in Thailand is the only HIV-1 vaccine efficacy trial to date to demonstrate any efficacy. Genetic signatures suggested that antibodies targeting the variable loop 2 (V2) of the HIV-1 envelope played an important protective role. The ALVAC prime and protein boost follow-up trial in southern Africa (HVTN702) failed to show any efficacy. One hypothesis for this is the greater diversity of subtype C viruses in southern Africa relative to CRF01_AE in Thailand. Methods: Here, we determined whether an ALVAC prime with computationally selected gp120 boost immunogens maximizing coverage of diversity of subtype C viruses in the variable V1 and V2 regions (V1V2) improved the protection of non-human primates (NHPs) from a heterologous subtype C SHIV challenge compared to more traditional regimens. Results: An ALVAC prime with Trivalent subtype C gp120 boosts resulted in statistically significant protection from repeated intrarectal SHIV challenges compared to the control. Evaluation of the immunogenicity of each vaccine regimen at the time of challenge demonstrated that different gp120 combination boosts elicited similar high magnitudes of gp120 and breadth of V1V2-binding antibodies, as well as strong Fc-mediated immune responses. Low-to-no neutralization of the challenge virus was detected. A Cox proportional hazard analysis of five pre-selected immune parameters at the time of challenge identified ADCC against the challenge envelope as a correlate of protection. Systems serology analysis revealed that immune responses elicited by the different vaccine regimens were distinct and identified further correlates of resistance to infection. Conclusions: Computationally designed vaccines with maximized subtype C V1V2 coverage mediated protection of NHPs from a heterologous Tier-2 subtype C SHIV challenge.

AB - Background: The RV144 trial in Thailand is the only HIV-1 vaccine efficacy trial to date to demonstrate any efficacy. Genetic signatures suggested that antibodies targeting the variable loop 2 (V2) of the HIV-1 envelope played an important protective role. The ALVAC prime and protein boost follow-up trial in southern Africa (HVTN702) failed to show any efficacy. One hypothesis for this is the greater diversity of subtype C viruses in southern Africa relative to CRF01_AE in Thailand. Methods: Here, we determined whether an ALVAC prime with computationally selected gp120 boost immunogens maximizing coverage of diversity of subtype C viruses in the variable V1 and V2 regions (V1V2) improved the protection of non-human primates (NHPs) from a heterologous subtype C SHIV challenge compared to more traditional regimens. Results: An ALVAC prime with Trivalent subtype C gp120 boosts resulted in statistically significant protection from repeated intrarectal SHIV challenges compared to the control. Evaluation of the immunogenicity of each vaccine regimen at the time of challenge demonstrated that different gp120 combination boosts elicited similar high magnitudes of gp120 and breadth of V1V2-binding antibodies, as well as strong Fc-mediated immune responses. Low-to-no neutralization of the challenge virus was detected. A Cox proportional hazard analysis of five pre-selected immune parameters at the time of challenge identified ADCC against the challenge envelope as a correlate of protection. Systems serology analysis revealed that immune responses elicited by the different vaccine regimens were distinct and identified further correlates of resistance to infection. Conclusions: Computationally designed vaccines with maximized subtype C V1V2 coverage mediated protection of NHPs from a heterologous Tier-2 subtype C SHIV challenge.

KW - correlate of protection

KW - HIV-1

KW - subtype C

KW - systems serology

KW - variable loops 1 and 2

UR - http://www.scopus.com/inward/record.url?scp=105001127836&partnerID=8YFLogxK

U2 - 10.3390/vaccines13030231

DO - 10.3390/vaccines13030231

M3 - Article

AN - SCOPUS:105001127836

SN - 2076-393X

VL - 13

JO - Vaccines

JF - Vaccines

IS - 3

M1 - 231

ER -