Abstract
Treatment of patients with advanced metastatic melanoma has for decades been a story of very limited success. This dramatically changed when therapy with anti-PD-1 checkpoint blocking antibodies was approved in the USA and Europe in 2014 and 2015, respectively. The therapy exploits the capacity of CD8+ T cells to specifically kill tumor cells. Within the tumor microenvironment, CD8+ T cell activity is blocked by suppressive signals received via PD-1, an inhibitory co-receptor and so-called checkpoint of T cell activation. PD-1 binds to its ligand PD-L1 on melanoma cells which dampens the T cell’s activity. Antibodies blocking inhibitory PD-1/PD-L1 interaction release T cells from suppression. Treatment of late-stage disease melanoma patients with antibodies targeting the PD-1/PD-L1 axis, termed immune checkpoint blocking therapy (ICBT), yields clinical frequently long-lasting responses in 30–40% of cases. Despite this remarkable breakthrough, still the majority of patients resists ICBT or develops resistance after initial therapy response. Administration of anti-PD-1 antibodies in combination with antibodies targeting CTLA-4, another inhibitory immune checkpoint increased clinical responses rate up to 50% but at costs of higher treatment-related toxicities. Thus, strong efforts are now directed toward the understanding of therapy resistance, the identification of biomarkers predicting therapy response, and the development of alternative PD-1-based combination treatment to improve patient outcomes.
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References
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Paschen, A., Schadendorf, D. (2020). The Era of Checkpoint Inhibition: Lessons Learned from Melanoma. In: Theobald, M. (eds) Current Immunotherapeutic Strategies in Cancer. Recent Results in Cancer Research, vol 214. Springer, Cham. https://doi.org/10.1007/978-3-030-23765-3_6
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