The Role of eIF4G-1 Isoforms and Live Cell Imaging of IRES-mediated Translation Initiation in Breast Cancer Cells

ECU Author/Contributor (non-ECU co-authors, if there are any, appear on document)
Whitney K. Crosson (Creator)
Institution
East Carolina University (ECU )
Web Site: http://www.ecu.edu/lib/
Advisor
Mary A. Farwell

Abstract: The development of cancer is a consequence of mutations that lead to dysfunctional cell processes such as unrestrained cell proliferation resistance to apoptosis and improper regulation of cell processes such as translation. Cell proliferation and apoptosis are linked to specific gene expression events regulated by protein synthesis which begins with the binding of various eukaryotic initiation factors (eIF) to mRNA and ribosomes to initiate translation. eIF4G-1 catalyzes two types of translation initiation. Cap-dependent translation requires eIF4E to bind a 5'-methylated mRNA cap and eIF4G-1. This in turn facilitates recruitment and promotes translation of cell cycle and growth-related proteins. Cap-independent translation initiates internally through internal ribosome entry sites (IRES) in the 5' UTR of mRNA and promotes translation of apoptotic mRNAs such as Apaf-1. Previous studies found that eight variants of eIF4G-1 mRNA exist and five protein isoforms can be resolved by electrophoresis. Each isoform may potentially form a translation complex with activities that differ slightly based on modular binding sites. We hypothesized that the representation of eIF4G-1 isoforms and their activity in the initiation complex varies in tumor-forming human breast cell lines vs. non-tumor-forming lines. However when eIF4G-1 isoform representation was determined in three breast carcinoma cell lines and one non-tumorigenic breast epithelium cell line no such systematic increase or decrease of individual isoforms was found. Similar results were seen after two breast cancer cell lines were treated with the chemotherapeutic reagents etoposide and cisplatin. Previous studies in our laboratory demonstrated that in population of human breast cancer cells cap-independent translation could be induced as indicated by the use Apaf-1 IRES suggesting a shift towards pro-apoptotic protein synthesis. We have now developed a novel dual fluorescence bicistronic reporter containing either the Apaf-1 IRES or a viral IRES to assay the propensity of these cells on an individual cell basis toward cap-independent translation in vivo. Our results confirm the ability of this assay to measure the ratio of cap-dependent versus cap-independent initiation in single live cells as demonstrated by blue fluorescence or green fluorescence respectively. By establishing the role of eIF4G-1 isoforms in pro-apoptotic protein synthesis it may be possible to direct a cell from proliferation to apoptosis by targeting certain isoforms. 

Additional Information

Publication
Thesis
Date: 2012
Keywords
Biochemistry, Cellular biology, Molecular biology, eIF4G, live-cell imaging
Subjects
Breast--Cancer--Research
Cell proliferation
Apoptosis
Cellular control mechanisms

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The Role of eIF4G-1 Isoforms and Live Cell Imaging of IRES-mediated Translation Initiation in Breast Cancer Cellshttp://hdl.handle.net/10342/3966The described resource references, cites, or otherwise points to the related resource.