Germline-targeting HIV-1 Env vaccination induces VRC01-class antibodies with rare insertions

Tom G. Caniels; Max Medina-Ramírez; Jinsong Zhang; Anita Sarkar; Sonu Kumar; Alex LaBranche; Ronald Derking; Joel D. Allen; Jonne L. Snitselaar; Joan Capella-Pujol; Iván del Moral Sánchez; Anila Yasmeen; Marilyn Diaz; Yoann Aldon; Tom P. L. Bijl; Sravani Venkatayogi; Joshua S. Martin Beem; Amanda Newman; Chuancang Jiang; Wen-Hsin Lee; Maarten Pater; Judith A. Burger; Mariëlle J. van Breemen; Steven W. de Taeye; Kimmo Rantalainen; Celia LaBranche; Kevin O. Saunders; David Montefiori; Gabriel Ozorowski; Andrew B. Ward; Max Crispin; John P. Moore; Per Johan Klasse; Barton F. Haynes; Ian A. Wilson; Kevin Wiehe; Laurent Verkoczy; Rogier W. Sanders

doi:https://doi.org/10.1016/j.xcrm.2023.101003

Germline-targeting HIV-1 Env vaccination induces VRC01-class antibodies with rare insertions

Tom G. Caniels, Max Medina-Ramírez, Jinsong Zhang, Anita Sarkar, Sonu Kumar, Alex LaBranche, Ronald Derking, Joel D. Allen, Jonne L. Snitselaar, Joan Capella-Pujol, Iván del Moral Sánchez, Anila Yasmeen, Marilyn Diaz, Yoann Aldon, Tom P. L. Bijl, Sravani Venkatayogi, Joshua S. Martin Beem, Amanda Newman, Chuancang Jiang, Wen-Hsin LeeMaarten Pater, Judith A. Burger, Mariëlle J. van Breemen, Steven W. de Taeye, Kimmo Rantalainen, Celia LaBranche, Kevin O. Saunders, David Montefiori, Gabriel Ozorowski, Andrew B. Ward, Max Crispin, John P. Moore, Per Johan Klasse, Barton F. Haynes, Ian A. Wilson, Kevin Wiehe, Laurent Verkoczy, Rogier W. Sanders

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

5 Citations (Scopus)

Abstract

Targeting germline (gl-) precursors of broadly neutralizing antibodies (bNAbs) is acknowledged as an important strategy for HIV-1 vaccines. The VRC01-class of bNAbs is attractive because of its distinct genetic signature. However, VRC01-class bNAbs often require extensive somatic hypermutation, including rare insertions and deletions. We describe a BG505 SOSIP trimer, termed GT1.2, to optimize binding to gl-CH31, the unmutated common precursor of the CH30-34 bNAb lineage that acquired a large CDRH1 insertion. The GT1.2 trimer activates gl-CH31 naive B cells in knock-in mice, and B cell responses could be matured by selected boosting immunogens to generate cross-reactive Ab responses. Next-generation B cell sequencing reveals selection for VRC01-class mutations, including insertions in CDRH1 and FWR3 at positions identical to VRC01-class bNAbs, as well as CDRL1 deletions and/or glycine substitutions to accommodate the N276 glycan. These results provide proof of concept for vaccine-induced affinity maturation of B cell lineages that require rare insertions and deletions.

Original language	English
Article number	101003
Journal	Cell Reports Medicine
Volume	4
Issue number	4
DOIs	https://doi.org/10.1016/j.xcrm.2023.101003
Publication status	Published - 18 Apr 2023

Keywords

HIV-1 Env
NGS
bNAbs
deletions
germline-targeting
insertions
mouse model
neutralizing antibodies
vaccines

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https://doi.org/10.1016/j.xcrm.2023.101003

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Caniels, T. G., Medina-Ramírez, M., Zhang, J., Sarkar, A., Kumar, S., LaBranche, A., Derking, R., Allen, J. D., Snitselaar, J. L., Capella-Pujol, J., Sánchez, I. D. M., Yasmeen, A., Diaz, M., Aldon, Y., Bijl, T. P. L., Venkatayogi, S., Martin Beem, J. S., Newman, A., Jiang, C., ... Sanders, R. W. (2023). Germline-targeting HIV-1 Env vaccination induces VRC01-class antibodies with rare insertions. Cell Reports Medicine, 4(4), Article 101003. https://doi.org/10.1016/j.xcrm.2023.101003

@article{9f4c1b81e3c943fa967ffaccee85cfae,

title = "Germline-targeting HIV-1 Env vaccination induces VRC01-class antibodies with rare insertions",

abstract = "Targeting germline (gl-) precursors of broadly neutralizing antibodies (bNAbs) is acknowledged as an important strategy for HIV-1 vaccines. The VRC01-class of bNAbs is attractive because of its distinct genetic signature. However, VRC01-class bNAbs often require extensive somatic hypermutation, including rare insertions and deletions. We describe a BG505 SOSIP trimer, termed GT1.2, to optimize binding to gl-CH31, the unmutated common precursor of the CH30-34 bNAb lineage that acquired a large CDRH1 insertion. The GT1.2 trimer activates gl-CH31 naive B cells in knock-in mice, and B cell responses could be matured by selected boosting immunogens to generate cross-reactive Ab responses. Next-generation B cell sequencing reveals selection for VRC01-class mutations, including insertions in CDRH1 and FWR3 at positions identical to VRC01-class bNAbs, as well as CDRL1 deletions and/or glycine substitutions to accommodate the N276 glycan. These results provide proof of concept for vaccine-induced affinity maturation of B cell lineages that require rare insertions and deletions.",

keywords = "HIV-1 Env, NGS, bNAbs, deletions, germline-targeting, insertions, mouse model, neutralizing antibodies, vaccines",

author = "Caniels, {Tom G.} and Max Medina-Ram{\'i}rez and Jinsong Zhang and Anita Sarkar and Sonu Kumar and Alex LaBranche and Ronald Derking and Allen, {Joel D.} and Snitselaar, {Jonne L.} and Joan Capella-Pujol and S{\'a}nchez, {Iv{\'a}n del Moral} and Anila Yasmeen and Marilyn Diaz and Yoann Aldon and Bijl, {Tom P. L.} and Sravani Venkatayogi and {Martin Beem}, {Joshua S.} and Amanda Newman and Chuancang Jiang and Wen-Hsin Lee and Maarten Pater and Burger, {Judith A.} and {van Breemen}, {Mari{\"e}lle J.} and {de Taeye}, {Steven W.} and Kimmo Rantalainen and Celia LaBranche and Saunders, {Kevin O.} and David Montefiori and Gabriel Ozorowski and Ward, {Andrew B.} and Max Crispin and Moore, {John P.} and Klasse, {Per Johan} and Haynes, {Barton F.} and Wilson, {Ian A.} and Kevin Wiehe and Laurent Verkoczy and Sanders, {Rogier W.}",

note = "Funding Information: We are grateful to the staff of Advanced Photon Source BL 23-IDD for assistance. GM/CA@APS has been funded by the National Cancer Institute ( ACB-12002 ) and the National Institute of General Medical Sciences ( AGM-12006 , P30GM138396 ). This research used resources of the Advanced Photon Sciences under contract no. DE-AC02-06CH11357 . This work is supported by the Netherlands Organisation for Scientific Research (N.W.O.) Vici grant (R.W.S.); Bill & Melinda Gates Foundation , Collaboration for AIDS Vaccine Discovery (C.A.V.D.) grants INV-002022 (R.W.S.) and OPP1115782 / INV-002916 (A.B.W.); Fondation Dormeur, Vaduz (R.W.S.); and grants from the NIAID , Division of AIDS , NIH UM1 grants for the Duke Center for HIV/AIDS Vaccine Immunology-Immunogen Discovery (CHAVI-ID; UM1530AI100645 and Consortia for HIV/AIDS Vaccine Development [ CHAVD ]) UM1AI144371 to B.F.H. and R01 grant AI087202 (L.K.V.). P.J.K. and J.P.M. are supported by R01 AI036082 and A.B.W., I.A.W., R.W.S., P.J.K., and J.P.M. are supported by a HIVRAD P01 AI110657 grant. M.C. is funded by the International AIDS Vaccine Initiative (IAVI) through grant INV-008352 and the Bill & Melinda Gates Foundation OPP1153692 . Funding for the neutralization assays was provided by NIH / NIAID contract #HHSN272201800004C . Funding Information: We are grateful to the staff of Advanced Photon Source BL 23-IDD for assistance. GM/CA@APS has been funded by the National Cancer Institute (ACB-12002) and the National Institute of General Medical Sciences (AGM-12006, P30GM138396). This research used resources of the Advanced Photon Sciences under contract no. DE-AC02-06CH11357. This work is supported by the Netherlands Organisation for Scientific Research (N.W.O.) Vici grant (R.W.S.); Bill & Melinda Gates Foundation, Collaboration for AIDS Vaccine Discovery (C.A.V.D.) grants INV-002022 (R.W.S.) and OPP1115782/INV-002916 (A.B.W.); Fondation Dormeur, Vaduz (R.W.S.); and grants from the NIAID, Division of AIDS, NIH UM1 grants for the Duke Center for HIV/AIDS Vaccine Immunology-Immunogen Discovery (CHAVI-ID; UM1530AI100645 and Consortia for HIV/AIDS Vaccine Development [CHAVD]) UM1AI144371 to B.F.H. and R01 grant AI087202 (L.K.V.). P.J.K. and J.P.M. are supported by R01 AI036082 and A.B.W. I.A.W. R.W.S. P.J.K. and J.P.M. are supported by a HIVRAD P01 AI110657 grant. M.C. is funded by the International AIDS Vaccine Initiative (IAVI) through grant INV-008352 and the Bill & Melinda Gates Foundation OPP1153692. Funding for the neutralization assays was provided by NIH/NIAID contract #HHSN272201800004C. Conceptualization: M.M.-R. R.D. B.F.H. L.W. L.K.V. and R.W.S.; investigation: T.G.C. M.M.-R. J.Z. A.S. A.S.K. A.L. R.D. J.A. J.L.S. J.C.P. I.d.M.S. A.Y. M.D. Y.A. T.P.L.B. S.V. J.M.B. A.N. C.J. W.-H.L. M.P. J.A.B. M.J.v.B. and P.J.K.; methodology: T.G.C. M.M.-R. J.Z. A.S. S.K. M.P. M.C. P.J.K. I.A.W. K.W. L.K.V. and R.W.S.; project administration: T.G.C. M.M.-R. K.W. L.K.V. and R.W.S.; supervision: C.L. D.M. G.O. A.B.W. M.C. J.P.M. P.J.K. B.F.H. I.A.W. K.W. L.K.V. and R.W.S.; writing – original draft: T.G.C. L.K.V. and R.W.S.; review and editing: all authors. Amsterdam UMC has filed a patent application related to germline-targeting HIV-1 Env trimers. Publisher Copyright: {\textcopyright} 2023 The Author(s)",

year = "2023",

month = apr,

day = "18",

doi = "https://doi.org/10.1016/j.xcrm.2023.101003",

language = "English",

volume = "4",

journal = "Cell Reports Medicine",

issn = "2666-3791",

publisher = "Cell Press",

number = "4",

}

Caniels, TG , Medina-Ramírez, M, Zhang, J, Sarkar, A, Kumar, S, LaBranche, A, Derking, R, Allen, JD, Snitselaar, JL , Capella-Pujol, J, Sánchez, IDM, Yasmeen, A, Diaz, M, Aldon, Y, Bijl, TPL, Venkatayogi, S, Martin Beem, JS, Newman, A, Jiang, C, Lee, W-H, Pater, M, Burger, JA , van Breemen, MJ , de Taeye, SW, Rantalainen, K, LaBranche, C, Saunders, KO, Montefiori, D, Ozorowski, G, Ward, AB, Crispin, M, Moore, JP, Klasse, PJ, Haynes, BF, Wilson, IA, Wiehe, K, Verkoczy, L & Sanders, RW 2023, 'Germline-targeting HIV-1 Env vaccination induces VRC01-class antibodies with rare insertions', Cell Reports Medicine, vol. 4, no. 4, 101003. https://doi.org/10.1016/j.xcrm.2023.101003

TY - JOUR

T1 - Germline-targeting HIV-1 Env vaccination induces VRC01-class antibodies with rare insertions

AU - Caniels, Tom G.

AU - Medina-Ramírez, Max

AU - Zhang, Jinsong

AU - Sarkar, Anita

AU - Kumar, Sonu

AU - LaBranche, Alex

AU - Derking, Ronald

AU - Allen, Joel D.

AU - Snitselaar, Jonne L.

AU - Capella-Pujol, Joan

AU - Sánchez, Iván del Moral

AU - Yasmeen, Anila

AU - Diaz, Marilyn

AU - Aldon, Yoann

AU - Bijl, Tom P. L.

AU - Venkatayogi, Sravani

AU - Martin Beem, Joshua S.

AU - Newman, Amanda

AU - Jiang, Chuancang

AU - Lee, Wen-Hsin

AU - Pater, Maarten

AU - Burger, Judith A.

AU - van Breemen, Mariëlle J.

AU - de Taeye, Steven W.

AU - Rantalainen, Kimmo

AU - LaBranche, Celia

AU - Saunders, Kevin O.

AU - Montefiori, David

AU - Ozorowski, Gabriel

AU - Ward, Andrew B.

AU - Crispin, Max

AU - Moore, John P.

AU - Klasse, Per Johan

AU - Haynes, Barton F.

AU - Wilson, Ian A.

AU - Wiehe, Kevin

AU - Verkoczy, Laurent

AU - Sanders, Rogier W.

N1 - Funding Information: We are grateful to the staff of Advanced Photon Source BL 23-IDD for assistance. GM/CA@APS has been funded by the National Cancer Institute ( ACB-12002 ) and the National Institute of General Medical Sciences ( AGM-12006 , P30GM138396 ). This research used resources of the Advanced Photon Sciences under contract no. DE-AC02-06CH11357 . This work is supported by the Netherlands Organisation for Scientific Research (N.W.O.) Vici grant (R.W.S.); Bill & Melinda Gates Foundation , Collaboration for AIDS Vaccine Discovery (C.A.V.D.) grants INV-002022 (R.W.S.) and OPP1115782 / INV-002916 (A.B.W.); Fondation Dormeur, Vaduz (R.W.S.); and grants from the NIAID , Division of AIDS , NIH UM1 grants for the Duke Center for HIV/AIDS Vaccine Immunology-Immunogen Discovery (CHAVI-ID; UM1530AI100645 and Consortia for HIV/AIDS Vaccine Development [ CHAVD ]) UM1AI144371 to B.F.H. and R01 grant AI087202 (L.K.V.). P.J.K. and J.P.M. are supported by R01 AI036082 and A.B.W., I.A.W., R.W.S., P.J.K., and J.P.M. are supported by a HIVRAD P01 AI110657 grant. M.C. is funded by the International AIDS Vaccine Initiative (IAVI) through grant INV-008352 and the Bill & Melinda Gates Foundation OPP1153692 . Funding for the neutralization assays was provided by NIH / NIAID contract #HHSN272201800004C . Funding Information: We are grateful to the staff of Advanced Photon Source BL 23-IDD for assistance. GM/CA@APS has been funded by the National Cancer Institute (ACB-12002) and the National Institute of General Medical Sciences (AGM-12006, P30GM138396). This research used resources of the Advanced Photon Sciences under contract no. DE-AC02-06CH11357. This work is supported by the Netherlands Organisation for Scientific Research (N.W.O.) Vici grant (R.W.S.); Bill & Melinda Gates Foundation, Collaboration for AIDS Vaccine Discovery (C.A.V.D.) grants INV-002022 (R.W.S.) and OPP1115782/INV-002916 (A.B.W.); Fondation Dormeur, Vaduz (R.W.S.); and grants from the NIAID, Division of AIDS, NIH UM1 grants for the Duke Center for HIV/AIDS Vaccine Immunology-Immunogen Discovery (CHAVI-ID; UM1530AI100645 and Consortia for HIV/AIDS Vaccine Development [CHAVD]) UM1AI144371 to B.F.H. and R01 grant AI087202 (L.K.V.). P.J.K. and J.P.M. are supported by R01 AI036082 and A.B.W. I.A.W. R.W.S. P.J.K. and J.P.M. are supported by a HIVRAD P01 AI110657 grant. M.C. is funded by the International AIDS Vaccine Initiative (IAVI) through grant INV-008352 and the Bill & Melinda Gates Foundation OPP1153692. Funding for the neutralization assays was provided by NIH/NIAID contract #HHSN272201800004C. Conceptualization: M.M.-R. R.D. B.F.H. L.W. L.K.V. and R.W.S.; investigation: T.G.C. M.M.-R. J.Z. A.S. A.S.K. A.L. R.D. J.A. J.L.S. J.C.P. I.d.M.S. A.Y. M.D. Y.A. T.P.L.B. S.V. J.M.B. A.N. C.J. W.-H.L. M.P. J.A.B. M.J.v.B. and P.J.K.; methodology: T.G.C. M.M.-R. J.Z. A.S. S.K. M.P. M.C. P.J.K. I.A.W. K.W. L.K.V. and R.W.S.; project administration: T.G.C. M.M.-R. K.W. L.K.V. and R.W.S.; supervision: C.L. D.M. G.O. A.B.W. M.C. J.P.M. P.J.K. B.F.H. I.A.W. K.W. L.K.V. and R.W.S.; writing – original draft: T.G.C. L.K.V. and R.W.S.; review and editing: all authors. Amsterdam UMC has filed a patent application related to germline-targeting HIV-1 Env trimers. Publisher Copyright: © 2023 The Author(s)

PY - 2023/4/18

Y1 - 2023/4/18

N2 - Targeting germline (gl-) precursors of broadly neutralizing antibodies (bNAbs) is acknowledged as an important strategy for HIV-1 vaccines. The VRC01-class of bNAbs is attractive because of its distinct genetic signature. However, VRC01-class bNAbs often require extensive somatic hypermutation, including rare insertions and deletions. We describe a BG505 SOSIP trimer, termed GT1.2, to optimize binding to gl-CH31, the unmutated common precursor of the CH30-34 bNAb lineage that acquired a large CDRH1 insertion. The GT1.2 trimer activates gl-CH31 naive B cells in knock-in mice, and B cell responses could be matured by selected boosting immunogens to generate cross-reactive Ab responses. Next-generation B cell sequencing reveals selection for VRC01-class mutations, including insertions in CDRH1 and FWR3 at positions identical to VRC01-class bNAbs, as well as CDRL1 deletions and/or glycine substitutions to accommodate the N276 glycan. These results provide proof of concept for vaccine-induced affinity maturation of B cell lineages that require rare insertions and deletions.

AB - Targeting germline (gl-) precursors of broadly neutralizing antibodies (bNAbs) is acknowledged as an important strategy for HIV-1 vaccines. The VRC01-class of bNAbs is attractive because of its distinct genetic signature. However, VRC01-class bNAbs often require extensive somatic hypermutation, including rare insertions and deletions. We describe a BG505 SOSIP trimer, termed GT1.2, to optimize binding to gl-CH31, the unmutated common precursor of the CH30-34 bNAb lineage that acquired a large CDRH1 insertion. The GT1.2 trimer activates gl-CH31 naive B cells in knock-in mice, and B cell responses could be matured by selected boosting immunogens to generate cross-reactive Ab responses. Next-generation B cell sequencing reveals selection for VRC01-class mutations, including insertions in CDRH1 and FWR3 at positions identical to VRC01-class bNAbs, as well as CDRL1 deletions and/or glycine substitutions to accommodate the N276 glycan. These results provide proof of concept for vaccine-induced affinity maturation of B cell lineages that require rare insertions and deletions.

KW - HIV-1 Env

KW - NGS

KW - bNAbs

KW - deletions

KW - germline-targeting

KW - insertions

KW - mouse model

KW - neutralizing antibodies

KW - vaccines

UR - http://www.scopus.com/inward/record.url?scp=85152368267&partnerID=8YFLogxK

U2 - https://doi.org/10.1016/j.xcrm.2023.101003

DO - https://doi.org/10.1016/j.xcrm.2023.101003

M3 - Article

C2 - 37044090

SN - 2666-3791

VL - 4

JO - Cell Reports Medicine

JF - Cell Reports Medicine

IS - 4

M1 - 101003

ER -

Germline-targeting HIV-1 Env vaccination induces VRC01-class antibodies with rare insertions

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