Epigenetic modifications determine phenotypic characteristics in a reversible, stable and genotype-independent manner. Epigenetic modifications mainly encompass CpG island methylation and histone modifications, both being important in the pathogenesis of malignancies. The reversibility of epigenetic phenomenon provides a suitable therapeutic option that is reactivation of epigenetically silenced tumor-suppressor genes. Inhibition of DNA methyltransferase, histone deacetylase and Aurora B kinase, individually or collectively, could feasibly prevent or reverse the impact of epigenetic silencing. MicroRNAs [miRNAs] are an important layer of epigenetic controlling of gene expression, and serve as diagnostic and prognostic biomarkers as well as treatment targets for several types of cancer. miRNAs are involved inepigenetically silencing or activation of genes, tumor suppressor genes and oncogenes, and their modulation opens new horizons for designing novel cancer therapeutic agents.
A major concern for cancer vaccines targeting self-tumor antigens is the risk of autoimmune sequelae. Although antitumor immunity correlates with autoimmune disease in some preclinical models, the mechanism(s) linking antitumor immunity and subsequent autoimmune pathology remain(s) to be determined. In the current study, we demonstrated that intradermal (i. d
Excitement is growing for therapies that harness the power of patients’ immune systems to combat their diseases. One approach to immunotherapy involves engineering patients’ own T cells to express a chimeric antigen receptor (CAR), to treat advanced cancers, particularly those refractory to conventional therapeutic agents. Although these engineered immune cells have made remarkable strides in the treatment of patients with certain hematologic malignancies, success with solid tumors has been limited, probably due to immunosuppressive mechanisms in the tumor niche. In nearly all studies to date, T cells bearing αβ receptors have been used to generate CAR T cells. In this review, we highlight biological characteristics of γδ T cells that are distinct from those of αβ T cells, including homing to epithelial and mucosal tissues and unique functions such as direct antigen recognition, lack of alloreactivity, and ability to present antigens. We offer our perspective that these features make γδ T cells promising for use in cellular therapy against several types of solid tumors, including melanoma and gastrointestinal cancers. Engineered γδ T cells should be considered as a new platform for adoptive T cell cancer therapy for mucosal tumors.
Melanoma is a leading cause of mortality from skin cancer and has a poor prognosis. Despite rapid advances in the treatment of this tumor type, the efficacy of current chemo-/targeted-therapies is still limited owing to the lack of sufficient drug accumulation in the tumor tissue and development of chemo-resistance. Recently, the application of mesenchymal stem cells (MSCs) in cancer therapy has gained substantial attention, suggesting their potential roles as an intriguing vehicle in improving the delivery of targeted agents. MSCs are genetically modified with suicide tumor suppressor genes to inhibit cell signaling pathways associated with the progression and metastatic features of melanoma. Here we describe the clinical application of MSCs in melanoma with a particular emphasis on recent findings on the role of MSC expressing a distinct set of biologically functional chemokines and tumor suppressing agents. Accumulating data has shown the tumor- oriented homing capacity of MSCs and their applications as a vehicle (e.g., adipose derived mesenchymal stem cells expressing TRAIL, interferon-α/γ, pigment epithelium-derived factor and cytosine deaminase). Several questions regarding possible potential and intrinsic mechanisms that might induce tumorigenesis and drug resistance are yet to be addressed for tailoring MSC-nbased treatment of melanoma.
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