Synthetically glycosylated antigens for the antigen-specific suppression of established immune responses

Andrew C. Tremain; Rachel P. Wallace; Kristen M. Lorentz; Thomas B. Thornley; Jennifer T. Antane; Michal R. Raczy; Joseph W. Reda; Aaron T. Alpar; Anna J. Slezak; Elyse A. Watkins; Chitavi D. Maulloo; Erica Budina; Ani Solanki; Mindy Nguyen; David J. Bischoff; Jamie L. Harrington; Rabinarayan Mishra; Gregory P. Conley; Romain Marlin; Nathalie Dereuddre-Bosquet; Anne Sophie Gallouët; Roger LeGrand; D. Scott Wilson; Stephan Kontos; Jeffrey A. Hubbell

doi:10.1038/s41551-023-01086-2

Synthetically glycosylated antigens for the antigen-specific suppression of established immune responses

Andrew C. Tremain, Rachel P. Wallace, Kristen M. Lorentz, Thomas B. Thornley, Jennifer T. Antane, Michal R. Raczy, Joseph W. Reda, Aaron T. Alpar, Anna J. Slezak, Elyse A. Watkins, Chitavi D. Maulloo, Erica Budina, Ani Solanki, Mindy Nguyen, David J. Bischoff, Jamie L. Harrington, Rabinarayan Mishra, Gregory P. Conley, Romain Marlin, Nathalie Dereuddre-BosquetAnne Sophie Gallouët, Roger LeGrand, D. Scott Wilson, Stephan Kontos, Jeffrey A. Hubbell

Chemical and Biomolecular Engineering

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

Abstract

Inducing antigen-specific tolerance during an established immune response typically requires non-specific immunosuppressive signalling molecules. Hence, standard treatments for autoimmunity trigger global immunosuppression. Here we show that established antigen-specific responses in effector T cells and memory T cells can be suppressed by a polymer glycosylated with N-acetylgalactosamine (pGal) and conjugated to the antigen via a self-immolative linker that allows for the dissociation of the antigen on endocytosis and its presentation in the immunoregulatory environment. We show that pGal–antigen therapy induces antigen-specific tolerance in a mouse model of experimental autoimmune encephalomyelitis (with programmed cell-death-1 and the co-inhibitory ligand CD276 driving the tolerogenic responses), as well as the suppression of antigen-specific responses to vaccination against a DNA-based simian immunodeficiency virus in non-human primates. Our findings show that pGal–antigen therapy invokes mechanisms of immune tolerance to resolve antigen-specific inflammatory T-cell responses and suggest that the therapy may be applicable across autoimmune diseases.

Original language	English (US)
Pages (from-to)	1142-1155
Number of pages	14
Journal	Nature Biomedical Engineering
Volume	7
Issue number	9
DOIs	https://doi.org/10.1038/s41551-023-01086-2
State	Published - Sep 2023

ASJC Scopus subject areas

Biotechnology
Bioengineering
Medicine (miscellaneous)
Biomedical Engineering
Computer Science Applications

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10.1038/s41551-023-01086-2

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Tremain, A. C., Wallace, R. P., Lorentz, K. M., Thornley, T. B., Antane, J. T., Raczy, M. R., Reda, J. W., Alpar, A. T., Slezak, A. J., Watkins, E. A., Maulloo, C. D., Budina, E., Solanki, A., Nguyen, M., Bischoff, D. J., Harrington, J. L., Mishra, R., Conley, G. P., Marlin, R., ... Hubbell, J. A. (2023). Synthetically glycosylated antigens for the antigen-specific suppression of established immune responses. Nature Biomedical Engineering, 7(9), 1142-1155. https://doi.org/10.1038/s41551-023-01086-2

Tremain, AC, Wallace, RP, Lorentz, KM, Thornley, TB, Antane, JT, Raczy, MR, Reda, JW, Alpar, AT, Slezak, AJ, Watkins, EA, Maulloo, CD, Budina, E, Solanki, A, Nguyen, M, Bischoff, DJ, Harrington, JL, Mishra, R, Conley, GP, Marlin, R, Dereuddre-Bosquet, N, Gallouët, AS, LeGrand, R, Wilson, DS, Kontos, S & Hubbell, JA 2023, 'Synthetically glycosylated antigens for the antigen-specific suppression of established immune responses', Nature Biomedical Engineering, vol. 7, no. 9, pp. 1142-1155. https://doi.org/10.1038/s41551-023-01086-2

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title = "Synthetically glycosylated antigens for the antigen-specific suppression of established immune responses",

abstract = "Inducing antigen-specific tolerance during an established immune response typically requires non-specific immunosuppressive signalling molecules. Hence, standard treatments for autoimmunity trigger global immunosuppression. Here we show that established antigen-specific responses in effector T cells and memory T cells can be suppressed by a polymer glycosylated with N-acetylgalactosamine (pGal) and conjugated to the antigen via a self-immolative linker that allows for the dissociation of the antigen on endocytosis and its presentation in the immunoregulatory environment. We show that pGal–antigen therapy induces antigen-specific tolerance in a mouse model of experimental autoimmune encephalomyelitis (with programmed cell-death-1 and the co-inhibitory ligand CD276 driving the tolerogenic responses), as well as the suppression of antigen-specific responses to vaccination against a DNA-based simian immunodeficiency virus in non-human primates. Our findings show that pGal–antigen therapy invokes mechanisms of immune tolerance to resolve antigen-specific inflammatory T-cell responses and suggest that the therapy may be applicable across autoimmune diseases.",

author = "Tremain, {Andrew C.} and Wallace, {Rachel P.} and Lorentz, {Kristen M.} and Thornley, {Thomas B.} and Antane, {Jennifer T.} and Raczy, {Michal R.} and Reda, {Joseph W.} and Alpar, {Aaron T.} and Slezak, {Anna J.} and Watkins, {Elyse A.} and Maulloo, {Chitavi D.} and Erica Budina and Ani Solanki and Mindy Nguyen and Bischoff, {David J.} and Harrington, {Jamie L.} and Rabinarayan Mishra and Conley, {Gregory P.} and Romain Marlin and Nathalie Dereuddre-Bosquet and Gallou{\"e}t, {Anne Sophie} and Roger LeGrand and Wilson, {D. Scott} and Stephan Kontos and Hubbell, {Jeffrey A.}",

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doi = "10.1038/s41551-023-01086-2",

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AU - Wallace, Rachel P.

AU - Lorentz, Kristen M.

AU - Thornley, Thomas B.

AU - Antane, Jennifer T.

AU - Raczy, Michal R.

AU - Reda, Joseph W.

AU - Alpar, Aaron T.

AU - Slezak, Anna J.

AU - Watkins, Elyse A.

AU - Maulloo, Chitavi D.

AU - Budina, Erica

AU - Solanki, Ani

AU - Nguyen, Mindy

AU - Bischoff, David J.

AU - Harrington, Jamie L.

AU - Mishra, Rabinarayan

AU - Conley, Gregory P.

AU - Marlin, Romain

AU - Dereuddre-Bosquet, Nathalie

AU - Gallouët, Anne Sophie

AU - LeGrand, Roger

AU - Wilson, D. Scott

AU - Kontos, Stephan

AU - Hubbell, Jeffrey A.

PY - 2023/9

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N2 - Inducing antigen-specific tolerance during an established immune response typically requires non-specific immunosuppressive signalling molecules. Hence, standard treatments for autoimmunity trigger global immunosuppression. Here we show that established antigen-specific responses in effector T cells and memory T cells can be suppressed by a polymer glycosylated with N-acetylgalactosamine (pGal) and conjugated to the antigen via a self-immolative linker that allows for the dissociation of the antigen on endocytosis and its presentation in the immunoregulatory environment. We show that pGal–antigen therapy induces antigen-specific tolerance in a mouse model of experimental autoimmune encephalomyelitis (with programmed cell-death-1 and the co-inhibitory ligand CD276 driving the tolerogenic responses), as well as the suppression of antigen-specific responses to vaccination against a DNA-based simian immunodeficiency virus in non-human primates. Our findings show that pGal–antigen therapy invokes mechanisms of immune tolerance to resolve antigen-specific inflammatory T-cell responses and suggest that the therapy may be applicable across autoimmune diseases.

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Synthetically glycosylated antigens for the antigen-specific suppression of established immune responses

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