A TLR7 agonist strengthens T and NK cell function during BRAF-targeted therapy in a preclinical melanoma model.

Lydia Bellmann,Patrizia Stoitzner,David W. Mullins,Athanasios Seretis,Johanna F. Schachtl‐Riess,Christoph H. Tripp,Giuseppe Cappellano,Anastasia Prokopi,Daniela Ortner,Constance E. Brinckerhoff

doi:10.1002/ijc.32777

Lydia Bellmann, Patrizia Stoitzner + Show 8 more

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https://doi.org/10.1002/ijc.32777

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Abstract

Therapeutic success of targeted therapy with BRAF inhibitors (BRAFi) for melanoma is limited by resistance development. Observations from preclinical mouse models and recent insights into the immunological effects caused by BRAFi give promise for future development of combination therapy for human melanoma. In our study, we used the transplantable D4M melanoma mouse model with the BRAFV600E mutation and concomitant PTEN loss in order to characterize alterations in tumor‐infiltrating effector immune cells when tumors become resistant to BRAFi. We found that BRAFi‐sensitive tumors displayed a pronounced inflammatory milieu characterized by high levels of cytokines and chemokines accompanied by an infiltration of T and NK cells. The tumor‐infiltrating effector cells were activated and produced high levels of IFN‐γ, TNF‐α and granzyme B. When tumors became resistant and progressively grew, they reverted to a low immunogenic state similar to untreated tumors as reflected by low mRNA levels of proinflammatory cytokines and chemokines and fewer tumor‐infiltrating T and NK cells. Moreover, these T and NK cells were functionally impaired in comparison to their counterparts in BRAFi‐sensitive tumors. Their effector cell function could be restored by additional peritumoral treatment with the TLR7 agonist imiquimod, a clinically approved agent for nonmelanoma skin cancer. Indeed, resistance to BRAFi therapy was delayed and accompanied by high numbers of activated T and NK cells in tumors. Thus, combining BRAFi with an immune stimulating agent such as a TLR ligand could be a promising alternative approach for the treatment of melanoma.

Highlights

Melanoma of the skin belongs to the 10 most common cancer types both in the US and Europe and its incidence is rapidly increasing.[1]
We found a significant increase of T and NK cells in BRAFi +TLR7 agonist (TLR7A) treated tumors in comparison to BRAFi+PBS treated ones (Fig. 5c)
An interesting feature of BRAFi-treated tumors is that they get infiltrated by immune cells.[16,18]. How these cells are impacted by BRAFi treatment and how this shapes further antitumor immune responses remains incompletely understood.[39]

Summary

Introduction

Melanoma of the skin belongs to the 10 most common cancer types both in the US and Europe and its incidence is rapidly increasing.[1] It has a high mutational load with driver mutations occurring in genes regulating important signaling pathways involved in proliferation and growth such as in the mitogenactivated protein kinase (MAPK) pathway (e.g., BRAF and NRAS), or the phosphoinositide 3-kinase (PI3K) pathway (e.g., PTEN).[2] In 60% of melanoma patients, mutations occur in the BRAF gene leading to an amino acid substitution of TLR7 agonist delays BRAF inhibitor resistance in a mouse melanoma model. Experiments show that in the BRAF-sensitive phase, peritumoral injection of the TLR7 ligand imiquimod preserves immunogenicity and delays resistance, representing a potentially effective novel therapeutic strategy for melanoma

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