In spite of the recent epidemiological study indicating a positive decrease in cancer trends, cancer remains to be one of the major causes of deaths and there is an anticipated increase in the number of new cancer cases to be recorded in the following years to come. It is important for researchers to improve the current therapeutic agents involved against cancer, particularly targeting to inhibit tumor cell growth, survival, and metastasis. Many researchers investigate the crucial role of a proangiogenic factor, vascular endothelial growth factor (VEGF) in the process of tumor angiogenesis, where the formation of new blood vessels carrying essential nutrients to the tumor cell becomes a critical factor for tumor growth. Since the establishment of VEGF's integral role in mediating tumor angiogenesis and tumor cell survival, current efforts are dedicated to developing therapeutic agents against VEGF and one of the emerging candidate under this category is pigment epithelium-derived factor (PEDF).
Background-Traditional forms of cancer therapy, which includes chemotherapy, have largely been overhauled due to the significant degree of toxicity they pose to normal, otherwise healthy tissue. It is hoped that use of biological agents, most of which are endogenously present in the body, will lead to safer treatment outcomes, without sacrificing efficacy.Objective-The finding that PEDF, a naturally-occurring protein, was a potent angiogenesis inhibitor became the basis for studying the role of PEDF in tumours that are highly resistant to chemotherapy. The determination of the direct role of PEDF against cancer paved the way for understanding and developing PEDF as a novel drug. This review focuses on the patent applications behind testing the anticancer therapeutic effect of PEDF via its receptors as an antiangiogenic agent and as a direct anticancer agent.Conclusions-The majority of the PEDF patents describe its and/or its fragments' antiangiogenic ability and the usage of recombinant vectors as the mode of treatment delivery.
Declaration of interestThe authors declare no conflict of interest and have received no payment in preparation for this manuscript. PEDF's therapeutic potential against different diseases and the discovery of its receptors opens possibilities for improving PEDF-based peptide design and drug delivery modes.
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