Rescue of exhausted CD8 T cells by PD-1–targeted therapies is CD28-dependent

Kamphorst, Alice O.; Wieland, Andreas; Nasti, Tahseen H.; Yang, Shu; Zhang, Ruan; Barber, Daniel L.; Konieczny, Bogumila T.; Daugherty, Candace Z.; Koenig, Lydia; Yu, Ke; Sica, Gabriel L.; Sharpe, Arlene H.; Freeman, Gordon J.; Blazar, Bruce R.; Turka, Laurence A.; Owonikoko, Taofeek K.; Pillai, Rathi N.; Ramalingam, Suresh S.; Araki, Koichi; Ahmed, Rafi

doi:10.1126/science.aaf0683

Cited by 812 publications

(740 citation statements)

References 29 publications

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“…Both PD-1 and CD28 preferentially co-cluster to provide a mechanism by which these co-receptors interact for de-phosphorylation. Consistent with this, others have shown that PD-1 blockade requires the expression of CD28 for the recovery of exhausted T cell responses [48] . The interplay involving CTLA-4 and PD-1 with CD28 may be indicative of a general theme of interplay between members of the CD28 family in the regulation of T-cell responses.…”

Section: Immunotherapysupporting

confidence: 60%

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CD28 family of receptors inter-connect in the regulation of T-cells

Krueger

Jules

Rieder³

et al. 2017

Receptor Clin Invest

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Section: Immunotherapysupporting

confidence: 60%

“…CTLA-4) mice depend on CD28 expression [46] . More recently, two new papers have shown that PD-1 operates via inhibition of CD28 signaling [47,48,49] . PD-1 associates with SHP-2 which preferentially dephosphorylates CD28 (Figure 1B).…”

Section: Immunotherapymentioning

confidence: 99%

CD28 family of receptors inter-connect in the regulation of T-cells

Krueger

Jules

Rieder³

et al. 2017

Receptor Clin Invest

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“…PD-1 expression on tumorinfiltrating CD8 þ T cells correlates with impaired effector cell function (2,11), while PD-L1 expression on tumors can facilitate escape from the host immune system (3) and can serve as a prognostic factor (12). Recent evidence indicates that recovery of responses from anti-PD-1 blockade depends on the related coreceptor (13)(14)(15). The nature of the intracellular signaling pathways that regulate PD-1 expression on T cells has been the subject of much interest.…”

Section: Introductionmentioning

confidence: 99%

Small-Molecule Inhibition of PD-1 Transcription Is an Effective Alternative to Antibody Blockade in Cancer Therapy

2018

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The impact of PD-1 immune checkpoint therapy prompts exploration of other strategies to downregulate PD-1 for cancer therapy. We previously showed that the serine/threonine kinase, glycogen synthase kinase, GSK-3a/b, is a central regulator of PD-1 transcription in CD8 þ T cells. Here, we show that the use of smallmolecule inhibitors of GSK-3a/b (GSK-3i) to reduce pcdc1 (PD-1) transcription and expression was as effective as anti-PD-1 and PD-L1-blocking antibodies in the control of B16 melanoma, or EL4 lymphoma, in primary tumor and metastatic settings. Furthermore, the conditional genetic deletion of GSK-3a/b reduced PD-1 expression on CD8 þ T cells and limited B16 pulmonary metastasis to the same degree as PD-1 gene deficiency. In each model, GSK-3i inhibited PD-1 expression on tumor-infiltrating lymphocytes, while increasing Tbx21 (T-bet) transcription, and the expression of CD107a þ (LAMP1) and granzyme B (GZMB) on CD8 þ T cells. Finally, the adoptive transfer of T cells treated ex vivo with a GSK-3 inhibitor delayed the onset of EL4 lymphoma growth to a similar extent as anti-PD-1 pretreatment. Overall, our findings show how GSK-3 inhibitors that downregulate PD-1 expression can enhance CD8 þ T-cell function in cancer therapy to a similar degree as PD-1-blocking antibodies.Significance: These findings show how GSK-3 inhibitors that downregulate PD-1 expression can enhance CD8þ T-cell function in cancer therapy to a similar degree as PD-1 blocking antibodies, offering a next-generation approach in the design of immunotherapeutic approaches for cancer management. Cancer Res; 78(3); 706-17.Ó2017 AACR.

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“…Current checkpoint inhibitor therapies act by reinforcement of pre-existing T cell anti-tumour responses and are therefore most effective in inflamed tumours. In the presence of an active T cell tumour response, IFN-γ produced by T cells and other immune cells upregulate the expression of PD-L1, which counters T cell receptor and CD28-mediated activation signals of T cells (Hui et al 2017, Kamphorst et al 2017. In clinical studies of PD-1 or PD-L1 antagonists, high T cell density and the adaptive increase of PD-L1 expression on tumour and immune cells are often used as features of an active anti-tumour T cell response (Chen & Mellman 2017).…”

Section: :12mentioning

confidence: 99%

The role of the tumour microenvironment in immunotherapy

Gasser

Lim

Cheung

2017

Endocrine-Related Cancer

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Recent success in immunomodulating strategies in lung cancer and melanoma has prompted much enthusiasm in their potential to treat other advanced solid malignancies. However, their applications have shown variable success and are even ineffective against some tumours. The efficiency of immunotherapies relies on an immunogenic tumour microenvironment. The current field of cancer immunology has focused on understanding the interaction of cancer and host immune cells to break the state of immune tolerance and explain how molecular patterns of cytokines and chemokines affect tumour progression. Here, we review our current knowledge of how inherent properties of tumours and their different tumour microenvironments affect therapeutic outcome. We also discuss insights into recent multimodal therapeutic approaches that target tumour immune evasion and suppression to restore anti-tumour immunity.

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Rescue of exhausted CD8 T cells by PD-1–targeted therapies is CD28-dependent

Cited by 812 publications

References 29 publications

CD28 family of receptors inter-connect in the regulation of T-cells

CD28 family of receptors inter-connect in the regulation of T-cells

Small-Molecule Inhibition of PD-1 Transcription Is an Effective Alternative to Antibody Blockade in Cancer Therapy

The role of the tumour microenvironment in immunotherapy

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