Use this URL to cite or link to this record in EThOS: http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.586464
Title: Role of C-terminal phosphorylation in the regulation of the tumour suppressor IRF-1
Author: Russell, Fiona Margaret M.
Awarding Body: University of Edinburgh
Current Institution: University of Edinburgh
Date of Award: 2013
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Abstract:
The transcription factor Interferon Regulatory Factor-1 (IRF-1) has been demonstrated to suppress tumour growth through the regulation of many anti-oncogenic genes. Pro- and anti-apoptotic factors, cell cycle control genes, DNA damage response genes and prometastatic factors are all under the control of IRF-1, which effects both transcriptional activation and repression. In addition to these cell autonomous tumour suppressor activities, IRF-1 is also a key regulator of the immune system and, as such, mediates immune surveillance of tumours. Numerous studies have confirmed that loss or mis-regulation of IRF-1 is a key factor in several different types of cancer. Despite strong evidence for the crucial role of IRF-1 in cancer, and frequent assertions that this protein warrants further investigation as a drug target, very little is known about its regulation. Furthermore, since recent studies have linked upregulation of IRF-1 to the development of autoimmune diseases, it is particularly important that drugs be able to decouple autoimmune and anti-cancer functions of IRF-1 to avoid harmful side effects. This thesis describes how phosphorylation of IRF-1 in its regulatory C-terminal Mf1 domain modulates transactivatory and tumour suppressor activity. Phosphospecific antibodies were developed as tools to study the C-terminal phosphorylation. Using these, it was shown that treatment of cells with Interferon-γ(IFN-γ) not only causes accumulation of IRF-1 protein, but also results in phosphorylation of IRF-1 at two sites in the C-terminal Mf1 domain. Phosphomimetic mutants demonstrated that these phosphorylations enhanced the transactivatory activity of IRF-1 at various promoters, but did not affect repressor activity. Gel shift assays revealed that dual phosphorylation of IRF-1 (IRF-1 D/D) promoted DNAbinding and suggested this was through increased interaction with the cofactor/histone acetylase p300 which induces a conformational change in IRF-1, favouring DNA-binding. Acetylation by p300 appears to be important although it is not yet clear whether this directly or indirectly affects IRF-1 activity. Since the tumour suppressor activity of IRF-1 is of particular interest, the effect of phosphorylation was examined in clonogenic and invasion assays. IRF-1 D/D more efficiently suppressed colony formation in both anchorage dependent and independent assays, and may improve inhibition of invasion in Transwell assays. Thus, cell treatment with the therapeutic agent IFN-γ nduces phosphorylation of IRF-1, resulting in enhanced DNA binding of IRF-1 through improved p300 binding. In cells the outcome is more effective tumour suppression and inhibition of metastasis.
Supervisor: Ball, Kathryn; Wallace, William Sponsor: Not available
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID: uk.bl.ethos.586464  DOI: Not available
Keywords: interferon regulatory factor-1 ; IRF-1 ; autoimmune ; tumour suppressor activity
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