Cancer Immunotherapy with Immunomodulatory Anti-CD137 and Anti–PD-1 Monoclonal Antibodies Requires BATF3-Dependent Dendritic Cells

Sánchez-Paulete, Alfonso R.; Cueto, Francisco J.; Martínez-López, María; Labiano, Sara; Morales-Kastresana, Aizea; Rodríguez-Ruiz, María E.; Jure-Kunkel, Maria; Azpilikueta, Arantza; Aznar, M. Ángela; Quetglas, José I.; Sancho, David; Melero, Ignacio

doi:10.1158/2159-8290.cd-15-0510

Cited by 384 publications

(349 citation statements)

References 29 publications

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“…We took advantage of two well-known immunogenic solid tumor models in mice, CT26 and MC38. These tumors are controlled by CD8 + T cells thus prone to respond to immunotherapy (14,17,22,23). Moreover, studies in mice have shown a link between mutational load of the tumor and clinical efficacy of immunotherapy (24).…”

Section: Discussionmentioning

confidence: 99%

“…Tumor models, tumor inoculation in mice, and antitumor treatments CT26 and MC38 are two immunogenic tumor models controlled by CD8 + T cells and known to respond to immune checkpoint blockers such as anti-PD-1 (14)(15)(16)(17) Mouse single cell preparation from spleen, lymph node, lung, bone marrow, and tumors Spleen and lymph nodes. Single cells were obtained after mechanical disruption, and RBCs were lysed using ACK lysing buffer (spleen).…”

Section: In Vivo Bioactivity Of Rli In Micementioning

confidence: 99%

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IL-15 Trans-Signaling with the Superagonist RLI Promotes Effector/Memory CD8+ T Cell Responses and Enhances Antitumor Activity of PD-1 Antagonists

Desbois

Coutzac

et al. 2016

The Journal of Immunology

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Tumors with the help of the surrounding environment facilitate the immune suppression in patients, and immunotherapy can counteract this inhibition. Among immunotherapeutic strategies, the immunostimulatory cytokine IL-15 could represent a serious candidate for the reactivation of antitumor immunity. However, exogenous IL-15 may have a limited impact on patients with cancer due to its dependency on IL-15Rα frequently downregulated in cancer patients. In this work, we studied the antitumor activity of the IL-15 superagonist receptor-linker–IL-15 (RLI), designed to bypass the need of endogenous IL-15Rα. RLI consists of human IL-15 covalently linked to the human IL-15Rα sushi+ domain. In a mouse model of colorectal carcinoma, RLI as a stand-alone treatment could limit tumor outgrowth only when initiated at an early time of tumor development. At a later time, RLI was not effective, coinciding with the strong accumulation of terminally exhausted programmed cell death-1 (PD-1)high T cell Ig mucin-3+ CD8+ T cells, suggesting that RLI was not able to reactivate terminally exhausted CD8+ T cells. Combination with PD-1 blocking Ab showed synergistic activity with RLI, but not with IL-15. RLI could induce a greater accumulation of memory CD8+ T cells and a stronger effector function in comparison with IL-15. Ex vivo stimulation of tumor-infiltrated lymphocytes from 16 patients with renal cell carcinoma demonstrated 56% of a strong tumor-infiltrated lymphocyte reactivation with the combination anti–PD-1/RLI compared with 43 and 6% with RLI or anti–PD-1, respectively. Altogether, this work provides evidence that the sushi–IL-15Rα/IL-15 fusion protein RLI enhances antitumor activity of anti–PD-1 treatment and is a promising approach to stimulate host immunity.

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Section: Discussionmentioning

confidence: 99%

Section: In Vivo Bioactivity Of Rli In Micementioning

confidence: 99%

IL-15 Trans-Signaling with the Superagonist RLI Promotes Effector/Memory CD8+ T Cell Responses and Enhances Antitumor Activity of PD-1 Antagonists

Desbois

Coutzac

et al. 2016

The Journal of Immunology

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“…In theory, this might lead to a higher response rate to immune checkpoint inhibition. Furthermore, the unique capability of DCs to cross-present antigens helps to induce an immune response to a wide variety of tumor antigens when applied in conjunction with immune checkpoint inhibitors (88). The timing of the combination may be of crucial importance for its efficacy.…”

Section: Combination With Immune Checkpoint Inhibitors: the Ideal Commentioning

confidence: 99%

Dendritic Cell–Based Immunotherapy: State of the Art and Beyond

Bol

Schreibelt

Gerritsen

et al. 2016

Clinical Cancer Research

312

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Dendritic cell (DC) vaccination in cancer patients aims to induce or augment an effective antitumor immune response against tumor antigens and was first explored in a clinical trial in the 1990s. More than two decades later, numerous clinical trials have been performed or are ongoing with a wide variety of DC subsets, culture protocols, and treatment regimens. The safety of DC vaccination and its ability to induce antitumor responses have clearly been established; however, although scattered patients with long-term benefit were reported, DC vaccines have not yet fulfilled their promise, perhaps mainly due to the lack of large-scale well-conducted phase II/III trials. To allow meaningful multicenter phase III trials, the production of DC vaccines should be standardized between centers which is now becoming feasible. To improve the efficacy of DC-based immunotherapy, it could be combined with other treatments.

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“…[8][9][10]57 To improve clinical efficacy, it is probably necessary to combine vaccination with checkpoint modulators or other strategies countering immunological tolerance. 6,25,52,[66][67][68][69][70][71] As a combination strategy will increase the risk of side effects, it is encouraging that our vaccine study indicated low toxicity, even after long-term follow-up. One may further note that the longterm survivors (M22 and M109) responded well to treatment with ipilimumab.…”

Section: Discussionmentioning

confidence: 82%

Immune response and long-term clinical outcome in advanced melanoma patients vaccinated with tumor-mRNA-transfected dendritic cells

et al. 2016

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The most effective anticancer immune responses are probably directed against patient-specific neoantigens. We have developed a melanoma vaccine targeting this individual mutanome based on dendritic cells (DCs) loaded with autologous tumor-mRNA. Here, we report a phase I/II trial evaluating toxicity, immune response and clinical outcome in 31 metastatic melanoma patients. The first cohort (n D 22) received the vaccine without any adjuvant; the next cohort (n D 9) received adjuvant IL2. Each subject received four weekly intranodal or intradermal injections, followed by optional monthly vaccines. Immune response was evaluated by delayed-type hypersensitivity (DTH), T cell proliferation and cytokine assays. Data were collected for 10 y after inclusion of the last patient. No serious adverse events were detected. In the intention-to-treat-cohort, we demonstrated significantly superior survival compared to matched controls from a benchmark meta-analysis (1 y survival 43% vs. 24%, 2 y 23% vs. 6.6%). A tumorspecific immune response was demonstrated in 16/31 patients. The response rate was higher after intradermal than intranodal vaccination (80% vs. 38%). Immune responders had improved survival compared to non-responders (median 14 mo vs. 6 mo; p D 0.030), and all eight patients surviving >20 mo were immune responders. In addition to the tumor-specific response, most patients developed a response against autologous DC antigens. The cytokine profile was polyfunctional and did not follow a Th1/Th2 dichotomy. We conclude that the favorable safety profile and evidence of a possible survival benefit warrant further studies of the RNA/DC vaccine. The vaccine appears insufficient as monotherapy, but there is a strong rationale for combination with checkpoint modulators.

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Cancer Immunotherapy with Immunomodulatory Anti-CD137 and Anti–PD-1 Monoclonal Antibodies Requires BATF3-Dependent Dendritic Cells

Cited by 384 publications

References 29 publications

IL-15 Trans-Signaling with the Superagonist RLI Promotes Effector/Memory CD8+ T Cell Responses and Enhances Antitumor Activity of PD-1 Antagonists

IL-15 Trans-Signaling with the Superagonist RLI Promotes Effector/Memory CD8+ T Cell Responses and Enhances Antitumor Activity of PD-1 Antagonists

Dendritic Cell–Based Immunotherapy: State of the Art and Beyond

Immune response and long-term clinical outcome in advanced melanoma patients vaccinated with tumor-mRNA-transfected dendritic cells

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