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The anti-senescence activity of trefoil factor 1

$298,354R01FY2013CANIH

Duke University, Durham NC

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Abstract

DESCRIPTION (provided by applicant): The primary objective of this proposal is to fully evaluate the anti-senescence activity of Trifoil Factor 1 (TFF1) in the process of pancreatic and prostate tumorigenesis in mouse models, and elucidate the signaling mechanism underlying its anti-senescent action. Cellular senescence acts as a barrier against malignant transformation, but the mechanisms associated with the overcome of senescence remain largely unknown. Thus, new information that reveals the molecular nature of such mechanisms could have a significant impact on the understanding of senescence as a critical event in the multi-step process of tumorigenesis. As a secreted protein, TFF1 functions as a tumor suppressor in the stomach by stimulating restitution of damaged tissue associated with ulceration and inflammation to reduce tumor formation. However, TFF1 is over expressed in tumor tissues from various organs, such as pancreas and prostate, where it is not normally localized, although the functional significance of this phenomenon remains poorly understood. To address this question, we investigated the function of TFF1 in the context of tumorigenesis using human pancreatic and prostate cancer cells and found that it acts to enable cells to breach the barrier of senescence induced by oncogenic Ras or reduction in tumor suppressor PTEN expression. Thus, our results indicate that in the context of pancreatic and prostate cancer, the previously defined tumor suppressor TFF1 actually promotes tumorigenesis by enabling pre-cancerous lesions to overcome the barrier of oncogene-induced senescence. To build on this unexpected discovery, we intend to fully determine the functional impact of TFF1 over expression on pancreatic and prostate tumorigenesis by employing two well-established mouse model systems in which oncogene activation-induced senescence has been thoroughly documented to act as a barrier for oncogenic transformation. In the meantime, by the identification of receptor/cell surface binding protein of TFF1 using both a candidate-approach and a RNAi-based genome-wide screen, we will test the hypothesis that TFF1 acts to suppress cellular senescence via a still undefined signaling pathway to allow clonal expansion of cells that harbor the initial genetic lesions in the early stage of tumorigenesis.

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