Abstract
Dysregulation of protein synthesis has been implicated in oncogenesis through a mechanism whereby "weak" mRNAs encoding proteins involved in cell proliferation are strongly translated when the protein synthesis apparatus is activated. Previous work has determined that many cancer cells contain high levels of eIF3h, a protein subunit of translation initiation factor eIF3, and overexpression of eIF3h malignantly transforms immortal NIH-3T3 cells. This is a general feature of eIF3h, as high levels also affect translation, proliferation, and a number of malignant phenotypes of CHO-K1 and HeLa cells and, most significantly, of a primary prostate cell line. Furthermore, overexpressed eIF3h inhibits Myc-dependent induction of apoptosis of primary prostate cells. eIF3h appears to function through translation, as the initial appearance of overexpressed eIF3h in rapidly induced NIH-3T3 cells correlates tightly with the stimulation of protein synthesis and the generation of malignant phenotypes. This oncogenic potential of eIF3h is enhanced by phosphorylation at Ser(183). Finally, reduction of eIF3h levels in breast and prostate cancer cell lines by short interfering RNA methods reduces their rates of proliferation and anchorage-independent growth in soft agar. The results provide compelling evidence that high eIF3h levels directly stimulate protein synthesis, resulting in the establishment and maintenance of the malignant state in cells.
Highlights
The failure to down-regulate protein synthesis leads to an overproduction of oncogenic proteins, resulting in malignant transformation of cells
EIF3h Is Up-regulated in Breast and Prostate Cancers— enhanced levels of eIF3h transcripts have been reported for a number of cancer cell lines, there has been no measure of the protein itself
We investigated eIF3h protein abundance by Western immunoblotting in three breast cancer (MDA436, SK-Br-3, and MCF-7), three prostate cancer (PC-3, LNCap, and 22Rv1), one transformed (HeLa), and two immortal (NIH-3T3 and CHO-K1) cell lines, as well as in primary prostate cells (PrEC)
Summary
Cell Lines and Tumor Samples—All of the following cell lines were obtained from the American Type Culture Collection (ATCC, Manassas, VA), including two immortal cell lines (NIH-3T3, CHO-K1), HeLa cells, three prostate cancer cell lines (PC-3, LNCaP, and 22Rv1), and three breast cancer cell lines (MCF-7, MDA436, and SK-Br-3). The 22Rv1 cell line was derived from an androgen-independent outgrowth of the CWR22 transplantable tumor, which was in turn established from a primary prostate adenocarcinoma [17]. Both original tumors at the injection sites and autonomic metastatic tumors were excised and fixed for further study. Untagged eIF3h was modified from pAMV/eIF3h by PCR to incorporate HindIII/XhoI sites using the following primers: 5Ј-
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