Ann Pathol
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Tumoral immune environment is a major component of cancer. Its composition and its organization represent a reproducible characteristic of tumors and a validated prognostic factor. In non-small cell lung cancer (NSCLC), cytotoxic T CD8+ lymphocyte density, associated with a Th1 environment and tertiary lymphoid structures impacts survival. ⋯ Clinical trials in NSCLC have shown that patients with tumors strongly positive for PD-L1 derived the best clinical benefit with PD1/PD-L1 inhibitors whereas clinical benefit is less common in tumors negative for PD-L1. PD-L1 expression is not a perfect biomarker since some PD-L1 negative NSCLC respond to PD1/PD-L1 inhibitors and some PD-L1 positive NSCLC do not. PD-L1 testing is likely to be implemented in daily practice for selection of advanced NSCLC that will be treated with pembrolizumab, underscoring the relevance of ongoing harmonization studies of the use of the different antibodies available for PD-L1 testing.
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Head and neck (HN) carcinomas (mostly represented by squamous cell carcinomas [SCC]) still have a poor prognosis, which could be dramatically improved with immunotherapy. Tumor's microenvironment changes, caused by many endogenous or exogenous events, can correlate with prognosis and therapeutic response. Here, we review recent data regarding HNSCC, nasopharyngeal carcinomas (NPC) and salivary gland malignant tumors, all three being potential target of immunotherapies. ⋯ PD-L1 shows great heterogeneity in localisation, when expressed. A 11 % response rate has been obtained under anti-PD-1 treatment among PD-L1-positive NPC patients. A better understanding of immune checkpoint regulation processes needs to be achieved to allow patients with HN carcinomas to benefit from these promising immunotherapies.
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Immune-checkpoint inhibitors represent potent new therapies for most lymphomas, particularly for refractory diseases. Contrasting with solid tumors the majority of lymphoma are sensitive to conventional therapies and immunotherapies such as anti-CD20 or anti-CD30. But relapsing lymphoma or refractory disease have a very poor prognosis and new drugs are mandatory. ⋯ Lymphomas differ from solid tumors as tumor cells belong to the immune compartment and therefore molecules targeting immune cells may act on both immune environment and tumor cells. Furthermore, PD-L1 expression in most lymphomas is related to tumor cell molecular alterations such as PD-L1 gene amplification or mutation. PD-L1 protein expression on tumor cells and immune cells, particularly it frequency and distribution vary according to different lymphoma subtype and it may help to assess diagnosis as it may predict therapeutical response.
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Costimulatory molecules allow the full lymphocyte activation, whereas co-inhibitory molecules are negative counterparts that act as immune regulators, avoiding excessive response. In some context of chronic inflammation such as cancer, co-inhibitory immune checkpoint as CTLA-4, PD-1, Lag-3, Tim-3 can accumulate at the membrane of T cells leading to a state of anergy and therefore the loss of tumor growth control. ⋯ Immunotherapy by anti-CTLA-4 and anti-PD-1/PD-L1 early demonstrated very good proof of efficacy in the setting of several cancers types, supporting the role of these molecules in tumor immune escape. The aim of this review is to summarize the pathophysiology of immune checkpoints and their therapeutic applications in cancer.