The stress kinase GCN2 does not mediate suppression of antitumor T cell responses by tryptophan catabolism in experimental melanomas

Jana K Sonner; Katrin Deumelandt; Martina Ott; Carina M Thomé; Katharina J Rauschenbach; Sandra Schulz; Bogdan Munteanu; Soumya Mohapatra; Isabell Adam; Ann-Cathrin Hofer; Markus Feuerer; Christiane A Opitz; Carsten Hopf; Wolfgang Wick; Michael Platten

doi:10.1080/2162402X.2016.1240858

The stress kinase GCN2 does not mediate suppression of antitumor T cell responses by tryptophan catabolism in experimental melanomas

Standard

The stress kinase GCN2 does not mediate suppression of antitumor T cell responses by tryptophan catabolism in experimental melanomas. / Sonner, Jana K; Deumelandt, Katrin; Ott, Martina; Thomé, Carina M; Rauschenbach, Katharina J; Schulz, Sandra; Munteanu, Bogdan; Mohapatra, Soumya; Adam, Isabell; Hofer, Ann-Cathrin; Feuerer, Markus; Opitz, Christiane A; Hopf, Carsten; Wick, Wolfgang; Platten, Michael.

In: ONCOIMMUNOLOGY, Vol. 5, No. 12, 2016, p. e1240858.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Sonner, JK, Deumelandt, K, Ott, M, Thomé, CM, Rauschenbach, KJ, Schulz, S, Munteanu, B, Mohapatra, S, Adam, I, Hofer, A-C, Feuerer, M, Opitz, CA, Hopf, C, Wick, W & Platten, M 2016, 'The stress kinase GCN2 does not mediate suppression of antitumor T cell responses by tryptophan catabolism in experimental melanomas', ONCOIMMUNOLOGY, vol. 5, no. 12, pp. e1240858. https://doi.org/10.1080/2162402X.2016.1240858

APA

Sonner, J. K., Deumelandt, K., Ott, M., Thomé, C. M., Rauschenbach, K. J., Schulz, S., Munteanu, B., Mohapatra, S., Adam, I., Hofer, A-C., Feuerer, M., Opitz, C. A., Hopf, C., Wick, W., & Platten, M. (2016). The stress kinase GCN2 does not mediate suppression of antitumor T cell responses by tryptophan catabolism in experimental melanomas. ONCOIMMUNOLOGY, 5(12), e1240858. https://doi.org/10.1080/2162402X.2016.1240858

Vancouver

Sonner JK, Deumelandt K, Ott M, Thomé CM, Rauschenbach KJ, Schulz S et al. The stress kinase GCN2 does not mediate suppression of antitumor T cell responses by tryptophan catabolism in experimental melanomas. ONCOIMMUNOLOGY. 2016;5(12):e1240858. https://doi.org/10.1080/2162402X.2016.1240858

Bibtex

@article{99598d9c6623401dada5e9c62f772fa2,

title = "The stress kinase GCN2 does not mediate suppression of antitumor T cell responses by tryptophan catabolism in experimental melanomas",

abstract = "Tryptophan metabolism is a key process that shapes the immunosuppressive tumor microenvironment. The two rate-limiting enzymes that mediate tryptophan depletion, indoleamine-2,3-dioxygenase (IDO) and tryptophan-2,3-dioxygenase (TDO), have moved into the focus of research and inhibitors targeting IDO and TDO have entered clinical trials. Local tryptophan depletion is generally viewed as the crucial immunosuppressive mechanism. In T cells, the kinase general control non-derepressible 2 (GCN2) has been identified as a molecular sensor of tryptophan deprivation. GCN2 activation by tryptophan depletion induces apoptosis and mitigates T cell proliferation. Here, we investigated whether GCN2 attenuates tumor rejection in experimental B16 melanoma using T cell-specific Gcn2 knockout mice. Our data demonstrate that GCN2 in T cells did not affect immunity to B16 tumors even when animals were treated with antibodies targeting cytotoxic T lymphocyte antigen-4 (CTLA4). GCN2-deficient gp100 TCR-transgenic T cells were equally effective as wild-type pmel T cells against gp100-expressing B16 melanomas after adoptive transfer and gp100 peptide vaccination. Even augmentation of tumoral tryptophan metabolism in B16 tumors by lentiviral overexpression of Tdo did not differentially affect GCN2-proficient vs. GCN2-deficient T cells in vivo. Importantly, GCN2 target genes were not upregulated in tumor-infiltrating T cells. MALDI-TOF MS imaging of B16 melanomas demonstrated maintenance of intratumoral tryptophan levels despite high tryptophan turnover, which prohibits a drop in tryptophan sufficient to activate GCN2 in tumor-infiltrating T cells. In conclusion, our results do not suggest that suppression of antitumor immune responses by tryptophan metabolism is driven by local tryptophan depletion and subsequent GCN2-mediated T cell anergy.",

author = "Sonner, {Jana K} and Katrin Deumelandt and Martina Ott and Thom{\'e}, {Carina M} and Rauschenbach, {Katharina J} and Sandra Schulz and Bogdan Munteanu and Soumya Mohapatra and Isabell Adam and Ann-Cathrin Hofer and Markus Feuerer and Opitz, {Christiane A} and Carsten Hopf and Wolfgang Wick and Michael Platten",

year = "2016",

doi = "10.1080/2162402X.2016.1240858",

language = "English",

volume = "5",

pages = "e1240858",

journal = "ONCOIMMUNOLOGY",

issn = "2162-402X",

publisher = "Taylor & Francis",

number = "12",

}

RIS

TY - JOUR

T1 - The stress kinase GCN2 does not mediate suppression of antitumor T cell responses by tryptophan catabolism in experimental melanomas

AU - Sonner, Jana K

AU - Deumelandt, Katrin

AU - Ott, Martina

AU - Thomé, Carina M

AU - Rauschenbach, Katharina J

AU - Schulz, Sandra

AU - Munteanu, Bogdan

AU - Mohapatra, Soumya

AU - Adam, Isabell

AU - Hofer, Ann-Cathrin

AU - Feuerer, Markus

AU - Opitz, Christiane A

AU - Hopf, Carsten

AU - Wick, Wolfgang

AU - Platten, Michael

PY - 2016

Y1 - 2016

N2 - Tryptophan metabolism is a key process that shapes the immunosuppressive tumor microenvironment. The two rate-limiting enzymes that mediate tryptophan depletion, indoleamine-2,3-dioxygenase (IDO) and tryptophan-2,3-dioxygenase (TDO), have moved into the focus of research and inhibitors targeting IDO and TDO have entered clinical trials. Local tryptophan depletion is generally viewed as the crucial immunosuppressive mechanism. In T cells, the kinase general control non-derepressible 2 (GCN2) has been identified as a molecular sensor of tryptophan deprivation. GCN2 activation by tryptophan depletion induces apoptosis and mitigates T cell proliferation. Here, we investigated whether GCN2 attenuates tumor rejection in experimental B16 melanoma using T cell-specific Gcn2 knockout mice. Our data demonstrate that GCN2 in T cells did not affect immunity to B16 tumors even when animals were treated with antibodies targeting cytotoxic T lymphocyte antigen-4 (CTLA4). GCN2-deficient gp100 TCR-transgenic T cells were equally effective as wild-type pmel T cells against gp100-expressing B16 melanomas after adoptive transfer and gp100 peptide vaccination. Even augmentation of tumoral tryptophan metabolism in B16 tumors by lentiviral overexpression of Tdo did not differentially affect GCN2-proficient vs. GCN2-deficient T cells in vivo. Importantly, GCN2 target genes were not upregulated in tumor-infiltrating T cells. MALDI-TOF MS imaging of B16 melanomas demonstrated maintenance of intratumoral tryptophan levels despite high tryptophan turnover, which prohibits a drop in tryptophan sufficient to activate GCN2 in tumor-infiltrating T cells. In conclusion, our results do not suggest that suppression of antitumor immune responses by tryptophan metabolism is driven by local tryptophan depletion and subsequent GCN2-mediated T cell anergy.

AB - Tryptophan metabolism is a key process that shapes the immunosuppressive tumor microenvironment. The two rate-limiting enzymes that mediate tryptophan depletion, indoleamine-2,3-dioxygenase (IDO) and tryptophan-2,3-dioxygenase (TDO), have moved into the focus of research and inhibitors targeting IDO and TDO have entered clinical trials. Local tryptophan depletion is generally viewed as the crucial immunosuppressive mechanism. In T cells, the kinase general control non-derepressible 2 (GCN2) has been identified as a molecular sensor of tryptophan deprivation. GCN2 activation by tryptophan depletion induces apoptosis and mitigates T cell proliferation. Here, we investigated whether GCN2 attenuates tumor rejection in experimental B16 melanoma using T cell-specific Gcn2 knockout mice. Our data demonstrate that GCN2 in T cells did not affect immunity to B16 tumors even when animals were treated with antibodies targeting cytotoxic T lymphocyte antigen-4 (CTLA4). GCN2-deficient gp100 TCR-transgenic T cells were equally effective as wild-type pmel T cells against gp100-expressing B16 melanomas after adoptive transfer and gp100 peptide vaccination. Even augmentation of tumoral tryptophan metabolism in B16 tumors by lentiviral overexpression of Tdo did not differentially affect GCN2-proficient vs. GCN2-deficient T cells in vivo. Importantly, GCN2 target genes were not upregulated in tumor-infiltrating T cells. MALDI-TOF MS imaging of B16 melanomas demonstrated maintenance of intratumoral tryptophan levels despite high tryptophan turnover, which prohibits a drop in tryptophan sufficient to activate GCN2 in tumor-infiltrating T cells. In conclusion, our results do not suggest that suppression of antitumor immune responses by tryptophan metabolism is driven by local tryptophan depletion and subsequent GCN2-mediated T cell anergy.

U2 - 10.1080/2162402X.2016.1240858

DO - 10.1080/2162402X.2016.1240858

M3 - SCORING: Journal article

C2 - 28123877

VL - 5

SP - e1240858

JO - ONCOIMMUNOLOGY

JF - ONCOIMMUNOLOGY

SN - 2162-402X

IS - 12

ER -