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Description
Non-small cell lung cancer (NSCLC) is the leading cause of cancer-related mortality in the USA and throughout the world. Two phenotypes that promote this deadly outcome are the invasive potential of NSCLC and the emergence of therapeutic resistance in this disease. There is an unmet clinical need to understand the mechanisms that govern NSCLC cell invasion and therapeutic resistance, and to target these phenotypes towards abating the dismal five-year survival of NSCLC. The expression of the tumor necrosis factor receptor superfamily, member 12A (TNFRSF12A; Fn14) correlates with poor patient survival and invasiveness in many tumor types including NSCLC. We hypothesize that suppression of Fn14 will inhibit NSCLC cell motility and reduce cell viability. Here we demonstrate that atorvastatin calcium treatment reduces Fn14 expression in NSCLC cell lines. Prior to Fn14 protein suppression, atorvastatin calcium modulated the expression of the Fn14 modulators P-ERK1/2 and P-NF-κβ. Atorvastatin calcium treatment inhibited the migratory capacity in H1975, H2030 and H1993 cells by at least 55%. When chemotactic migration in H2030 cells was induced by the Fn14 ligand TNF-like weak inducer of apoptosis (TWEAK) treatment, atorvastatin calcium successfully negated any stimulatory effects. Inversely, treatment of NSCLC cells with cholesterol resulted in a statistically significant increase in migration. Depletion of Fn14 expression via siRNA suppressed the migratory effect of cholesterol. Finally, atorvastatin calcium treatment sensitized cells to radiation treatment, reducing cell survival. These data suggest that atorvastatin calcium may inhibit NSCLC invasiveness through a mechanism involving Fn14, and may be a novel therapeutic target in NSCLC tumors expressing Fn14.
ContributorsCornes, Victoria Elisabeth (Author) / Stout, Valerie (Thesis director) / Whitsett, Timothy (Committee member) / Carson, Vashti (Committee member) / Barrett, The Honors College (Contributor) / School of Life Sciences (Contributor)
Created2015-05
Description
Esophageal adenocarcinoma is one of the largest growing cancer types in the United States and the whole world. One of the only known precursors to EAC is Barrett’s Esophagus, the changing of the normal squamous cells which line the esophagus into intestinal cells, following repeated exposure to gastric acids via gastroesophageal reflux disease. There is limited knowledge of the mutations and drivers that contribute to EAC’s low 5-year survival rates, demonstrating a need to identify new therapeutic targets. Given the development of EAC from chronic inflammation and acidic microenvironment, elevated expression of tumor necrosis factor receptor super family member 12A (TNFRSF12A, FN14) and its corresponding ligand, TWEAK, is correlated with disease progression. The functional role of the TWEAK/FN14 signaling axis is well documented in other cancer types, contributing to tumor invasion, migration, and survival. However, reports have shown the TWEAK/FN14 signaling axis can contribute “pro-cancer” and “anti-cancer” phenotypes in different tumor microenvironments. In this study, we seek to demonstrate the functional role of TWEAK and FN14 in EAC survival and migration. We hypothesized TWEAK/FN14 signaling would promoted EAC cell survival and migration. In this study, we illustrate increased expression of FN14 with disease progression. Following treatment with TWEAK, human EAC cell lines had increased sensitivity to standard chemotherapy treatment in vitro. Treatment with TWEAK also correlated with increased cellular migration, most likely in correlation with NF-κB activation. Finally, we showed that inhibition of FN14 via siRNA significantly reduced EAC survival and increased efficacy of standard of care treatments. This data suggests a diverse functional role of the TWEAK/FN14 signaling axis in EAC, and may be a potential target for novel therapeutics.
ContributorsFornefeld, Lucas Christien (Author) / Stout, Valerie (Thesis director) / Whitsett, Timothy (Committee member) / Carson, Vashti (Committee member) / School of Life Sciences (Contributor) / W. P. Carey School of Business (Contributor) / Barrett, The Honors College (Contributor)
Created2016-12