Cytomegaloviral determinants of CD8+T cell programming and RhCMV/SIV vaccine efficacy

Daniel Malouli; Scott G. Hansen; Meaghan H. Hancock; Colette M. Hughes; Julia C. Ford; Roxanne M. Gilbride; Abigail B. Ventura; David Morrow; Kurt T. Randall; Husam Taher; Luke S. Uebelhoer; Matthew R. McArdle; Courtney R. Papen; Renee Espinosa Trethewy; Kelli Oswald; Rebecca Shoemaker; Brian Berkemeier; William J. Bosche; Michael Hull; Justin M. Greene; Michael K. Axthelm; Jason Shao; Paul T. Edlefsen; Finn Grey; Jay A. Nelson; Jeffrey D. Lifson; Daniel Streblow; Jonah B. Sacha; Klaus Früh; Louis J. Picker

doi:10.1126/SCIIMMUNOL.ABG5413

Cytomegaloviral determinants of CD8⁺T cell programming and RhCMV/SIV vaccine efficacy

Daniel Malouli, Scott G. Hansen, Meaghan H. Hancock, Colette M. Hughes, Julia C. Ford, Roxanne M. Gilbride, Abigail B. Ventura, David Morrow, Kurt T. Randall, Husam Taher, Luke S. Uebelhoer, Matthew R. McArdle, Courtney R. Papen, Renee Espinosa Trethewy, Kelli Oswald, Rebecca Shoemaker, Brian Berkemeier, William J. Bosche, Michael Hull, Justin M. GreeneMichael K. Axthelm, Jason Shao, Paul T. Edlefsen, Finn Grey, Jay A. Nelson, Jeffrey D. Lifson, Daniel Streblow, Jonah B. Sacha, Klaus Früh, Louis J. Picker

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

27 Scopus citations

Abstract

Simian immunodeficiency virus (SIV) insert-expressing, 68-1 rhesus cytomegalovirus (RhCMV/SIV) vectors elicit major histocompatibility complex E (MHC-E)- and MHC-II-restricted, SIV-specific CD8⁺T cell responses, but the basis of these unconventional responses and their contribution to demonstrated vaccine efficacy against SIV challenge in the rhesus monkeys (RMs) have not been characterized. We show that these unconventional responses resulted from a chance genetic rearrangement in 68-1 RhCMV that abrogated the function of eight distinct immunomodulatory gene products encoded in two RhCMV genomic regions (Rh157.5/Rh157.4 and Rh158-161), revealing three patterns of unconventional response inhibition. Differential repair of these genes with either RhCMV-derived or orthologous human CMV (HCMV)-derived sequences (UL128/UL130; UL146/UL147) leads to either of two distinct CD8⁺T cell response types-MHC-Ia-restricted only or a mix of MHC-II- and MHC-Ia-restricted CD8⁺T cells. Response magnitude and functional differentiation are similar to RhCMV 68-1, but neither alternative response type mediated protection against SIV challenge. These findings implicate MHC-E-restricted CD8⁺T cell responses as mediators of anti-SIV efficacy and indicate that translation of RhCMV/SIV vector efficacy to humans will likely require deletion of all genes that inhibit these responses from the HCMV/HIV vector.

Original language	English (US)
Article number	eabg5413
Journal	Science Immunology
Volume	6
Issue number	57
DOIs	https://doi.org/10.1126/SCIIMMUNOL.ABG5413
State	Published - Mar 2021

ASJC Scopus subject areas

Immunology and Allergy
Immunology

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10.1126/SCIIMMUNOL.ABG5413

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Malouli, D., Hansen, S. G., Hancock, M. H., Hughes, C. M., Ford, J. C., Gilbride, R. M., Ventura, A. B., Morrow, D., Randall, K. T., Taher, H., Uebelhoer, L. S., McArdle, M. R., Papen, C. R., Trethewy, R. E., Oswald, K., Shoemaker, R., Berkemeier, B., Bosche, W. J., Hull, M., ... Picker, L. J. (2021). Cytomegaloviral determinants of CD8⁺T cell programming and RhCMV/SIV vaccine efficacy. Science Immunology, 6(57), Article eabg5413. https://doi.org/10.1126/SCIIMMUNOL.ABG5413

Malouli, D , Hansen, SG , Hancock, MH, Hughes, CM, Ford, JC, Gilbride, RM, Ventura, AB, Morrow, D, Randall, KT, Taher, H, Uebelhoer, LS, McArdle, MR, Papen, CR, Trethewy, RE, Oswald, K, Shoemaker, R, Berkemeier, B, Bosche, WJ, Hull, M, Greene, JM, Axthelm, MK, Shao, J, Edlefsen, PT, Grey, F, Nelson, JA, Lifson, JD, Streblow, D , Sacha, JB , Früh, K & Picker, LJ 2021, 'Cytomegaloviral determinants of CD8⁺T cell programming and RhCMV/SIV vaccine efficacy', Science Immunology, vol. 6, no. 57, eabg5413. https://doi.org/10.1126/SCIIMMUNOL.ABG5413

@article{ff080932bb354824b938c7972159e34c,

title = "Cytomegaloviral determinants of CD8+T cell programming and RhCMV/SIV vaccine efficacy",

abstract = "Simian immunodeficiency virus (SIV) insert-expressing, 68-1 rhesus cytomegalovirus (RhCMV/SIV) vectors elicit major histocompatibility complex E (MHC-E)- and MHC-II-restricted, SIV-specific CD8+T cell responses, but the basis of these unconventional responses and their contribution to demonstrated vaccine efficacy against SIV challenge in the rhesus monkeys (RMs) have not been characterized. We show that these unconventional responses resulted from a chance genetic rearrangement in 68-1 RhCMV that abrogated the function of eight distinct immunomodulatory gene products encoded in two RhCMV genomic regions (Rh157.5/Rh157.4 and Rh158-161), revealing three patterns of unconventional response inhibition. Differential repair of these genes with either RhCMV-derived or orthologous human CMV (HCMV)-derived sequences (UL128/UL130; UL146/UL147) leads to either of two distinct CD8+T cell response types-MHC-Ia-restricted only or a mix of MHC-II- and MHC-Ia-restricted CD8+T cells. Response magnitude and functional differentiation are similar to RhCMV 68-1, but neither alternative response type mediated protection against SIV challenge. These findings implicate MHC-E-restricted CD8+T cell responses as mediators of anti-SIV efficacy and indicate that translation of RhCMV/SIV vector efficacy to humans will likely require deletion of all genes that inhibit these responses from the HCMV/HIV vector.",

author = "Daniel Malouli and Hansen, {Scott G.} and Hancock, {Meaghan H.} and Hughes, {Colette M.} and Ford, {Julia C.} and Gilbride, {Roxanne M.} and Ventura, {Abigail B.} and David Morrow and Randall, {Kurt T.} and Husam Taher and Uebelhoer, {Luke S.} and McArdle, {Matthew R.} and Papen, {Courtney R.} and Trethewy, {Renee Espinosa} and Kelli Oswald and Rebecca Shoemaker and Brian Berkemeier and Bosche, {William J.} and Michael Hull and Greene, {Justin M.} and Axthelm, {Michael K.} and Jason Shao and Edlefsen, {Paul T.} and Finn Grey and Nelson, {Jay A.} and Lifson, {Jeffrey D.} and Daniel Streblow and Sacha, {Jonah B.} and Klaus Fr{\"u}h and Picker, {Louis J.}",

year = "2021",

month = mar,

doi = "10.1126/SCIIMMUNOL.ABG5413",

language = "English (US)",

volume = "6",

journal = "Science Immunology",

issn = "2470-9468",

publisher = "American Association for the Advancement of Science",

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T1 - Cytomegaloviral determinants of CD8+T cell programming and RhCMV/SIV vaccine efficacy

AU - Malouli, Daniel

AU - Hansen, Scott G.

AU - Hancock, Meaghan H.

AU - Hughes, Colette M.

AU - Ford, Julia C.

AU - Gilbride, Roxanne M.

AU - Ventura, Abigail B.

AU - Morrow, David

AU - Randall, Kurt T.

AU - Taher, Husam

AU - Uebelhoer, Luke S.

AU - McArdle, Matthew R.

AU - Papen, Courtney R.

AU - Trethewy, Renee Espinosa

AU - Oswald, Kelli

AU - Shoemaker, Rebecca

AU - Berkemeier, Brian

AU - Bosche, William J.

AU - Hull, Michael

AU - Greene, Justin M.

AU - Axthelm, Michael K.

AU - Shao, Jason

AU - Edlefsen, Paul T.

AU - Grey, Finn

AU - Nelson, Jay A.

AU - Lifson, Jeffrey D.

AU - Streblow, Daniel

AU - Sacha, Jonah B.

AU - Früh, Klaus

AU - Picker, Louis J.

PY - 2021/3

Y1 - 2021/3

N2 - Simian immunodeficiency virus (SIV) insert-expressing, 68-1 rhesus cytomegalovirus (RhCMV/SIV) vectors elicit major histocompatibility complex E (MHC-E)- and MHC-II-restricted, SIV-specific CD8+T cell responses, but the basis of these unconventional responses and their contribution to demonstrated vaccine efficacy against SIV challenge in the rhesus monkeys (RMs) have not been characterized. We show that these unconventional responses resulted from a chance genetic rearrangement in 68-1 RhCMV that abrogated the function of eight distinct immunomodulatory gene products encoded in two RhCMV genomic regions (Rh157.5/Rh157.4 and Rh158-161), revealing three patterns of unconventional response inhibition. Differential repair of these genes with either RhCMV-derived or orthologous human CMV (HCMV)-derived sequences (UL128/UL130; UL146/UL147) leads to either of two distinct CD8+T cell response types-MHC-Ia-restricted only or a mix of MHC-II- and MHC-Ia-restricted CD8+T cells. Response magnitude and functional differentiation are similar to RhCMV 68-1, but neither alternative response type mediated protection against SIV challenge. These findings implicate MHC-E-restricted CD8+T cell responses as mediators of anti-SIV efficacy and indicate that translation of RhCMV/SIV vector efficacy to humans will likely require deletion of all genes that inhibit these responses from the HCMV/HIV vector.

AB - Simian immunodeficiency virus (SIV) insert-expressing, 68-1 rhesus cytomegalovirus (RhCMV/SIV) vectors elicit major histocompatibility complex E (MHC-E)- and MHC-II-restricted, SIV-specific CD8+T cell responses, but the basis of these unconventional responses and their contribution to demonstrated vaccine efficacy against SIV challenge in the rhesus monkeys (RMs) have not been characterized. We show that these unconventional responses resulted from a chance genetic rearrangement in 68-1 RhCMV that abrogated the function of eight distinct immunomodulatory gene products encoded in two RhCMV genomic regions (Rh157.5/Rh157.4 and Rh158-161), revealing three patterns of unconventional response inhibition. Differential repair of these genes with either RhCMV-derived or orthologous human CMV (HCMV)-derived sequences (UL128/UL130; UL146/UL147) leads to either of two distinct CD8+T cell response types-MHC-Ia-restricted only or a mix of MHC-II- and MHC-Ia-restricted CD8+T cells. Response magnitude and functional differentiation are similar to RhCMV 68-1, but neither alternative response type mediated protection against SIV challenge. These findings implicate MHC-E-restricted CD8+T cell responses as mediators of anti-SIV efficacy and indicate that translation of RhCMV/SIV vector efficacy to humans will likely require deletion of all genes that inhibit these responses from the HCMV/HIV vector.

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Cytomegaloviral determinants of CD8⁺T cell programming and RhCMV/SIV vaccine efficacy

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