Supplementary Figures 1 and 2 from Elevated Translation Initiation Factor eIF4E Is an Attractive Therapeutic Target in Multiple Myeloma
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posted on 2023-04-03, 15:46 authored by Shirong Li, Jing Fu, Caisheng Lu, Markus Y. Mapara, Shahzad Raza, Ulrich Hengst, Suzanne LentzschSupplementary Figures 1. Analysis of eIF4E protein levels by western blotting of whole cell extracts from primary stromal cells, CD138- cells, primary myeloma cells (CD138+) and normal plasma cells. Supplementary Figures 2. CT shRNA, eIF4E shRNA, PCDH-GFP or PCDH-eIF4E U266 cells were analyzed by Annexin V binding/ PI staining for apoptotic cells.
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ARTICLE ABSTRACT
eIF4E is the key regulator of protein translation and critical for translation. The oncogenic potential of tumorigenesis, which is highly contingent on cap-dependent eIF4E, also arises from the critical role in the nuclear export and cytosolic translation of oncogenic transcripts. Inhibition of Exportin1 (XPO1), which is the major nuclear export protein for eIF4E-bound oncoprotein mRNAs, results in decreased tumor cell growth in vitro and in vivo, suggesting that eIF4E is critical in multiple myeloma. Indeed, we found that eIF4E is overexpressed in myeloma cell lines and primary myeloma cells compared with normal plasma cells. Although stable overexpression of eIF4E in multiple myeloma cells significantly increases tumorigenesis, knockdown of eIF4E impairs multiple myeloma tumor progression in a human xenograft mouse model. Using a tet-on–inducible eIF4E-knockdown system, eIF4E downregulation blocks multiple myeloma tumor growth in vivo, correlating with decreased eIF4E expression. Further overexpression and knockdown of eIF4E revealed that eIF4E regulates translation of mRNAs with highly complex 5′-untranslated regions, such as c-MYC and C/EBPβ, and subsequently proliferation in multiple myeloma cells, but not in nonmalignant bone marrow stromal cells. Because many transcription factors that are critical for multiple myeloma proliferation exhibit a higher dependency on protein translation, eIF4E is an ideal and selective tool to target multiple myeloma cell growth. Mol Cancer Ther; 15(4); 711–9. ©2016 AACR.Usage metrics
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