The immune system recognizes and is poised to eliminate cancer but is held in check by inhibitory receptors and ligands. These immune checkpoint pathways, which normally maintain self-tolerance and ...limit collateral tissue damage during anti-microbial immune responses, can be co-opted by cancer to evade immune destruction. Drugs interrupting immune checkpoints, such as anti-CTLA-4, anti-PD-1, anti-PD-L1, and others in early development, can unleash anti-tumor immunity and mediate durable cancer regressions. The complex biology of immune checkpoint pathways still contains many mysteries, and the full activity spectrum of checkpoint-blocking drugs, used alone or in combination, is currently the subject of intense study.
Summary Checkpoint blockade immunotherapy has received mainstream attention as a result of striking and durable clinical responses in some patients with metastatic disease and a reasonable response ...rate in many tumour types. The activity of checkpoint blockade immunotherapy is not restricted to melanoma or lung cancer, and additional indications are expected in the future, with responses already reported in renal cancer, bladder cancer, and Hodgkin's lymphoma among many others. Additionally, the interactions between radiation and the immune system have been investigated, with several studies describing the synergistic effects on local and distant tumour control when radiation therapy is combined with immunotherapy. Clinical enthusiasm for this approach is strengthened by the many ongoing trials combining immunotherapy with definitive and palliative radiation. Herein, we discuss the biological and mechanistic rationale behind combining radiation with checkpoint blockade immunotherapy, with a focus on the preclinical data supporting this potentially synergistic combination. We explore potential hypotheses and important considerations for clinical trial designs. Finally, we reintroduce the notion of radiosensitising immunotherapy, akin to radiosensitising chemotherapy, as a potential definitive therapeutic modality.
Advances in basic immunology have led to an improved understanding of the interactions between the immune system and tumours, generating renewed interest in approaches that aim to treat cancer ...immunologically. As clinical and preclinical studies of tumour immunotherapy illustrate several immunological principles, a review of these data is broadly instructive and is particularly timely now that several agents are beginning to show evidence of efficacy. This is especially relevant in the case of prostate cancer, as recent approval of sipuleucel-T by the US Food and Drug Administration marks the first antigen-specific immunotherapy approved for cancer treatment. Although this Review focuses on immunotherapy for prostate cancer, the principles discussed are applicable to many tumour types, and the approaches discussed are highlighted in that context.
Highlights ► PD-1/B7-H1 are pivotal in maintaining an immunosuppressive tumor microenvironment. ► PD-1 and CTLA-4 play distinct roles in regulating immunity. ► B7-H1 upregulation on tumor cells ...likely reflects ‘adaptive resistance’. ► PD-1 blockade is active against NSCLC, thought to be a ‘non-immunogenic’ tumor. ► Monotherapies blocking PD-1 may be more effective in combinatorial regimens.
Ipilimumab (MDX-010, Yervoy; Bristol-Myers Squibb), a fully human monoclonal antibody against CTL antigen 4 (CTLA-4), was recently approved by the U.S. Food and Drug Administration (FDA) for the ...treatment of metastatic melanoma. In both early- and late-phase trials, ipilimumab has shown consistent activity against melanoma. For example, in a randomized phase III trial that enrolled patients with previously treated metastatic disease, ipilimumab, with or without a peptide vaccine, improved overall survival: Median overall survival was 10.1 and 10.0 months in the ipilimumab and ipilimumab plus vaccine arms, respectively, versus 6.4 months in the vaccine-alone group (hazard ratio, 0.68; P ≤ 0.003). Serious (grade 3-5) immune-related adverse events occurred in 10% to 15% of patients. Thus, although it provides a clear survival benefit, ipilimumab administration requires careful patient monitoring and sometimes necessitates treatment with immune-suppressive therapy. Here, we review the mechanism of action, preclinical data, and multiple clinical trials that led to FDA approval of ipilimumab for metastatic melanoma.
The expression of immune checkpoint molecules on T cells represents an important mechanism that the immune system uses to regulate responses to self-proteins. Checkpoint molecules include cytotoxic T ...lymphocyte antigen-4, programmed death-1, lymphocyte activation gene-3, T-cell immunoglobulin and mucin protein-3, and several others. Previous studies have identified individual roles for each of these molecules, but more recent data show that coexpression of checkpoint molecules occurs frequently on cancer-specific T cells as well as on pathogen-specific T cells in chronic infections. As the signaling pathways associated with each checkpoint molecule have not been fully elucidated, blocking multiple checkpoints with specific monoclonal antibodies results in improved outcomes in several chronic viral infections as well as in a wide array of preclinical models of cancer. Recent clinical data suggest similar effects in patients with metastatic melanoma. These findings support the concept that individual immune checkpoint molecules may function through nonoverlapping molecular mechanisms. Here, we review current data regarding immune checkpoint molecule signaling and coexpression, both in cancer and infectious disease, as well as the results of preclinical and clinical manipulations of checkpoint proteins.
LAG3 (CD223) as a cancer immunotherapy target Andrews, Lawrence P.; Marciscano, Ariel E.; Drake, Charles G. ...
Immunological reviews,
March 2017, 2017-03-00, 20170301, Letnik:
276, Številka:
1
Journal Article
Recenzirano
Odprti dostop
Summary
Despite the impressive impact of CTLA4 and PD1‐PDL1‐targeted cancer immunotherapy, a large proportion of patients with many tumor types fail to respond. Consequently, the focus has shifted to ...targeting alternative inhibitory receptors (IRs) and suppressive mechanisms within the tumor microenvironment. Lymphocyte activation gene‐3 (LAG3) (CD223) is the third IR to be targeted in the clinic, consequently garnering considerable interest and scrutiny. LAG3 upregulation is required to control overt activation and prevent the onset of autoimmunity. However, persistent antigen exposure in the tumor microenvironment results in sustained LAG3 expression, contributing to a state of exhaustion manifest in impaired proliferation and cytokine production. The exact signaling mechanisms downstream of LAG3 and interplay with other IRs remain largely unknown. However, the striking synergy between LAG3 and PD1 observed in multiple settings, coupled with the contrasting intracellular cytoplasmic domain of LAG3 as compared with other IRs, highlights the potential uniqueness of LAG3. There are now four LAG3‐targeted therapies in the clinic with many more in preclinical development, emphasizing the broad interest in this IR. Given the translational relevance of LAG3 and the heightened interest in the impact of dual LAG3/PD1 targeting in the clinic, the outcome of these trials could serve as a nexus; significantly increasing or dampening enthusiasm for subsequent targets in the cancer immunotherapeutic pipeline.
The Immunobiology of Kidney Cancer Drake, Charles G; Stein, Mark N
Journal of clinical oncology,
12/2018, Letnik:
36, Številka:
36
Journal Article
Recenzirano
Although kidney cancer (renal cell carcinoma RCC) is susceptible to immunotherapy, the immunologic aspects of the tumor microenvironment (TME) in RCC are relatively unique among tumor types. In RCC, ...baseline CD8 T-cell infiltration is associated with a worse prognosis. In addition, kidney cancer responds to programmed death-1/programmed death-ligand 1 blockade, despite a relatively low tumor mutation burden. Recent clinical data highlight the efficacy of combined immune checkpoint blockade and demonstrate that combining antiangiogenic agents with programmed death-1/programmed death-ligand 1 blockade has additive activity. Yet an important unanswered question in RCC is the nature of the antigens that are targeted by the immune system when immunotherapy is successful. Ongoing clinical studies are interrogating the multiple suppressive mechanisms in the RCC TME, including metabolic pathways such as those mediated by adenosine and tryptophan as well as cytokine-based therapies. Future regimens are likely to be combinatorial and may eventually be based on a broader understanding of the RCC TME and how it is modulated by both conventional and immune-based therapy.
The majority of patients with urothelial cancer do not respond to immune checkpoint blockade directed at the PD-(L)1 axis. Recently, robust profiling data were used to derive predictive biomarker ...signatures for both protumorigenic immunity and adaptive antitumor immunity; combining these has greater predictive power than either alone. Clinically, these results suggest that myeloid cells may be primary drivers of nonresponsiveness in urothelial cancer.
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Many human cancers are dramatically accelerated by chronic inflammation. However, the specific cellular and molecular elements mediating this effect remain largely unknown. Using a murine model of ...pancreatic intraepithelial neoplasia (PanIN), we found that KrasG12D induces expression of functional IL-17 receptors on PanIN epithelial cells and also stimulates infiltration of the pancreatic stroma by IL-17-producing immune cells. Both effects are augmented by associated chronic pancreatitis, resulting in functional in vivo changes in PanIN epithelial gene expression. Forced IL-17 overexpression dramatically accelerates PanIN initiation and progression, while inhibition of IL-17 signaling using genetic or pharmacologic techniques effectively prevents PanIN formation. Together, these studies suggest that a hematopoietic-to-epithelial IL-17 signaling axis is a potent and requisite driver of PanIN formation.
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•IL-17+ T cells are recruited to the pancreas in response to Kras and inflammation•IL-17A overexpression accelerates PanIN initiation and progression•Inhibition of IL-17 signaling effectively prevents PanIN initiation and progression•Kras activates expression of functional IL-17 receptors on PanIN epithelium
McAllister et al. show that KrasG12D induces IL-17 receptors expression on PanIN epithelial cells and stimulates infiltration of IL-17-producing immune cells in a murine PanIN model, the latter of which is confirmed in human PanIN and that inhibition of IL-17 signaling prevents pancreatic neoplasia initiation.
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