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Role of SIRT3 in melanoma development and progression

$0I01FY2019VAVA

Wm S. Middleton Memorial Veterans Hosp, Madison WI

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Abstract

Melanoma, one of the deadliest cancer of skin, arises from melanocytic cells that are responsible for melanin production. Recent advances in the understanding of melanoma biology has led to the development of targeted therapies with promise. For example, BRAF inhibitors vemurafenib and dabrafenib achieved significant improvement over chemotherapy and were approved for metastatic melanomas with BRAF- mutations. More recently, the combination of dabrafenib with MEK inhibitor trametinib demonstrated improved progression-free survival, compared to monotherapy, and has received approval from the US FDA. However, even with the combination treatment, most of the patients develop acquired resistance, thereby failing to achieve lasting tumor regression. Therefore, novel target-based approaches are needed for the management of melanomas. The mammalian sirtuins constitute a family of seven known members (SIRT1 ? SIRT7) with NAD+-dependent protein deacetylase and/or ADP-ribosyltransferase activities]. In addition, they are also known to regulate post-translational acyl modifications. SIRTs play critical roles in important cellular processes, and are shown to be involved in the pathogenesis of a variety of diseases, including cancer. The role of SIRTs in cancer is extremely complex and they appears to have dichotomous functions depending on cell contexts. Among known SIRTs, SIRT3 is a mitochondrial sirtuin, which coordinates global shift in mitochondrial activity by deacetylating proteins involved in diverse mitochondrial functions. It also plays important roles in the regulation of a variety of cellular processes, including transcription, insulin secretion, and apoptosis. The fact that SIRT3 can regulate several cellular processes which are critical in cancer cell proliferation, makes it a potential therapeutic target for cancer management. While the research on the role of SIRT3 in cancer is still in its infancy, studies have suggested its tumor suppressor as well as tumor promoter roles. However, the role of SIRT3 in melanoma is not known. In our preliminary data, we have found that SIRT3 is overexpressed in melanoma and its inhibition results in a significant anti-proliferative response in melanoma cells. Further, we have also found that 4'-bromo-resveratrol (4BR), a new small molecule inhibitor of SIRT3, imparts anti- proliferative effects in human melanoma cells. Thus, based on available literature and our preliminary data, we propose to test the hypothesis that SIRT3 plays a critical role in melanoma progression via modulating p53 signaling, Ku70-Bax interaction and/or cellular metabolic homeostasis. The following specific aims are proposed: 1) o define the role of SIRT3 in melanoma development and progression, employing a tissue microarray (TMA) created from retrospective melanoma tissues from veteran patients, and an in vitro cell transformation model; 2) to define the involvement of p53 signaling, Ku70-Bax interaction, cellular metabolic homeostasis, as downstream determinants of SIRT3 in melanoma cells; and 3) to determine the therapeutic significance of SIRT3 inhibition in vivo in 1) Braf-Pten mouse melanoma mode, and patient derived xenografts (PDX) developed with prospectively collected metastatic melanoma tissues from veteran patients. We expect that the outcome of studies proposed in this application may define the role and mechanism of SIRT3 in melanocytic transformation and melanoma progression. This may ultimately lead to development of novel diagnostic, prognostic or therapeutic approaches for melanoma. Since melanoma incidence seems to be higher in the veteran population and our proposed study aimed at defining the molecular mechanism of melanoma development may lead to identification of novel strategies for the management of this deadly neoplasm. Therefore, our proposed work is relevant and significant to the health care of Veterans and is in line with the mission of the Department of Veteran Affairs.

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