Human endogenous retroviruses form a reservoir of T cell targets in hematological cancers with low mutational burden

Research output: Contribution to journalConference abstract in journalResearch

Standard

Human endogenous retroviruses form a reservoir of T cell targets in hematological cancers with low mutational burden. / Saini, Sunil Kumar; Orskov, Andreas; Bjerregaard, Anne-Mette; Unnikrishnam, Ashwin; Holmberg-Thyden, Staffan; Borch, Annie; Anande, Govardhan; Bentzen, Amalie; Marquard, Andrea; Tamhane, Tripti; Gang, Anne; Defva, Inge; Szallasi, Zoltan; Eklund, Aron; Pimanda, John; Gronbaek, Kirsten; Hadrup, Sine.

In: Journal of Immunology, Vol. 204, No. 1 supplement, 242.14, 01.05.2020.

Research output: Contribution to journalConference abstract in journalResearch

Harvard

Saini, SK, Orskov, A, Bjerregaard, A-M, Unnikrishnam, A, Holmberg-Thyden, S, Borch, A, Anande, G, Bentzen, A, Marquard, A, Tamhane, T, Gang, A, Defva, I, Szallasi, Z, Eklund, A, Pimanda, J, Gronbaek, K & Hadrup, S 2020, 'Human endogenous retroviruses form a reservoir of T cell targets in hematological cancers with low mutational burden', Journal of Immunology, vol. 204, no. 1 supplement, 242.14. <https://www.jimmunol.org/content/204/1_Supplement/242.14>

APA

Saini, S. K., Orskov, A., Bjerregaard, A-M., Unnikrishnam, A., Holmberg-Thyden, S., Borch, A., Anande, G., Bentzen, A., Marquard, A., Tamhane, T., Gang, A., Defva, I., Szallasi, Z., Eklund, A., Pimanda, J., Gronbaek, K., & Hadrup, S. (2020). Human endogenous retroviruses form a reservoir of T cell targets in hematological cancers with low mutational burden. Journal of Immunology, 204(1 supplement), [242.14]. https://www.jimmunol.org/content/204/1_Supplement/242.14

Vancouver

Saini SK, Orskov A, Bjerregaard A-M, Unnikrishnam A, Holmberg-Thyden S, Borch A et al. Human endogenous retroviruses form a reservoir of T cell targets in hematological cancers with low mutational burden. Journal of Immunology. 2020 May 1;204(1 supplement). 242.14.

Author

Saini, Sunil Kumar ; Orskov, Andreas ; Bjerregaard, Anne-Mette ; Unnikrishnam, Ashwin ; Holmberg-Thyden, Staffan ; Borch, Annie ; Anande, Govardhan ; Bentzen, Amalie ; Marquard, Andrea ; Tamhane, Tripti ; Gang, Anne ; Defva, Inge ; Szallasi, Zoltan ; Eklund, Aron ; Pimanda, John ; Gronbaek, Kirsten ; Hadrup, Sine. / Human endogenous retroviruses form a reservoir of T cell targets in hematological cancers with low mutational burden. In: Journal of Immunology. 2020 ; Vol. 204, No. 1 supplement.

Bibtex

@article{f514a4fbe376423bb0a3ecac0812b974,
title = "Human endogenous retroviruses form a reservoir of T cell targets in hematological cancers with low mutational burden",
abstract = "Human endogenous retroviruses (HERVs) form a substantial part of the human genome. However, most elements remain transcriptionally silent. Malignant transformation and epigenetic therapies may induce transcription of HERV elements. Such HERV elements could potentially trigger adaptive immune responses and provide targets for immunotherapy applications. Here, we evaluate the potential for T cell recognition of HERV elements in myeloid malignancies. We studied 66 HERV genes reported to retain transcriptional activity and generated a library of 1,169 potential antigenic HERV-derived peptides predicted for presentation by 4 HLA class I molecules. Through the use of DNA barcode-labeled MHC-I multimers, we identified CD8+ T cell populations recognizing 29 HERV-derived peptides, represented by 18 different HERVs. T cell recognition of HERVs was detected in half of the 34 patients analyzed and was significantly enhanced in patients compared to healthy donors. Patients with HERV-derived T cell reactivity demonstrated improved viral-antigen recognition following treatment, indicating that HERV-derived T cell recognition may contribute to the therapy-induced clinical improvement and immune reconstitution. In line with the T cell data, transcriptomic analyses revealed a significantly enhanced transcription of the HERVs in patients compared to healthy donors. DNA-demethylating therapy did not result in additional transcriptional enhancement of the HERVs evaluated for T cell recognition. Our study demonstrates substantial T cell recognition of HERVs in myeloid malignancies. These HERVs could serve as a reservoir of antigens potentially exploited as immunotherapeutic targets in malignancies with low mutational burden.",
author = "Saini, {Sunil Kumar} and Andreas Orskov and Anne-Mette Bjerregaard and Ashwin Unnikrishnam and Staffan Holmberg-Thyden and Annie Borch and Govardhan Anande and Amalie Bentzen and Andrea Marquard and Tripti Tamhane and Anne Gang and Inge Defva and Zoltan Szallasi and Aron Eklund and John Pimanda and Kirsten Gronbaek and Sine Hadrup",
year = "2020",
month = may,
day = "1",
language = "English",
volume = "204",
journal = "Journal of Immunology",
issn = "0022-1767",
publisher = "American Association of Immunologists",
number = "1 supplement",
note = "Annual Meeting of the American-Association-of-Immunologists - Immunology 2020 ; Conference date: 08-05-2020 Through 12-05-2020",

}

RIS

TY - ABST

T1 - Human endogenous retroviruses form a reservoir of T cell targets in hematological cancers with low mutational burden

AU - Saini, Sunil Kumar

AU - Orskov, Andreas

AU - Bjerregaard, Anne-Mette

AU - Unnikrishnam, Ashwin

AU - Holmberg-Thyden, Staffan

AU - Borch, Annie

AU - Anande, Govardhan

AU - Bentzen, Amalie

AU - Marquard, Andrea

AU - Tamhane, Tripti

AU - Gang, Anne

AU - Defva, Inge

AU - Szallasi, Zoltan

AU - Eklund, Aron

AU - Pimanda, John

AU - Gronbaek, Kirsten

AU - Hadrup, Sine

PY - 2020/5/1

Y1 - 2020/5/1

N2 - Human endogenous retroviruses (HERVs) form a substantial part of the human genome. However, most elements remain transcriptionally silent. Malignant transformation and epigenetic therapies may induce transcription of HERV elements. Such HERV elements could potentially trigger adaptive immune responses and provide targets for immunotherapy applications. Here, we evaluate the potential for T cell recognition of HERV elements in myeloid malignancies. We studied 66 HERV genes reported to retain transcriptional activity and generated a library of 1,169 potential antigenic HERV-derived peptides predicted for presentation by 4 HLA class I molecules. Through the use of DNA barcode-labeled MHC-I multimers, we identified CD8+ T cell populations recognizing 29 HERV-derived peptides, represented by 18 different HERVs. T cell recognition of HERVs was detected in half of the 34 patients analyzed and was significantly enhanced in patients compared to healthy donors. Patients with HERV-derived T cell reactivity demonstrated improved viral-antigen recognition following treatment, indicating that HERV-derived T cell recognition may contribute to the therapy-induced clinical improvement and immune reconstitution. In line with the T cell data, transcriptomic analyses revealed a significantly enhanced transcription of the HERVs in patients compared to healthy donors. DNA-demethylating therapy did not result in additional transcriptional enhancement of the HERVs evaluated for T cell recognition. Our study demonstrates substantial T cell recognition of HERVs in myeloid malignancies. These HERVs could serve as a reservoir of antigens potentially exploited as immunotherapeutic targets in malignancies with low mutational burden.

AB - Human endogenous retroviruses (HERVs) form a substantial part of the human genome. However, most elements remain transcriptionally silent. Malignant transformation and epigenetic therapies may induce transcription of HERV elements. Such HERV elements could potentially trigger adaptive immune responses and provide targets for immunotherapy applications. Here, we evaluate the potential for T cell recognition of HERV elements in myeloid malignancies. We studied 66 HERV genes reported to retain transcriptional activity and generated a library of 1,169 potential antigenic HERV-derived peptides predicted for presentation by 4 HLA class I molecules. Through the use of DNA barcode-labeled MHC-I multimers, we identified CD8+ T cell populations recognizing 29 HERV-derived peptides, represented by 18 different HERVs. T cell recognition of HERVs was detected in half of the 34 patients analyzed and was significantly enhanced in patients compared to healthy donors. Patients with HERV-derived T cell reactivity demonstrated improved viral-antigen recognition following treatment, indicating that HERV-derived T cell recognition may contribute to the therapy-induced clinical improvement and immune reconstitution. In line with the T cell data, transcriptomic analyses revealed a significantly enhanced transcription of the HERVs in patients compared to healthy donors. DNA-demethylating therapy did not result in additional transcriptional enhancement of the HERVs evaluated for T cell recognition. Our study demonstrates substantial T cell recognition of HERVs in myeloid malignancies. These HERVs could serve as a reservoir of antigens potentially exploited as immunotherapeutic targets in malignancies with low mutational burden.

M3 - Conference abstract in journal

VL - 204

JO - Journal of Immunology

JF - Journal of Immunology

SN - 0022-1767

IS - 1 supplement

M1 - 242.14

T2 - Annual Meeting of the American-Association-of-Immunologists - Immunology 2020

Y2 - 8 May 2020 through 12 May 2020

ER -

ID: 257242122