Jonathan M. Lee scite author profile

The conversion of an epithelial cell to a mesenchymal cell is critical to metazoan embryogenesis and a defining structural feature of organ development. Current interest in this process, which is described as an epithelial–mesenchymal transition (EMT), stems from its developmental importance and its involvement in several adult pathologies. Interest and research in EMT are currently at a high level, as seen by the attendance at the recent EMT meeting in Vancouver, Canada (October 1–3, 2005). The meeting, which was hosted by The EMT International Association, was the second international EMT meeting, the first being held in Port Douglas, Queensland, Australia in October 2003. The EMT International Association was formed in 2002 to provide an international body for those interested in EMT and the reverse process, mesenchymal–epithelial transition, and, most importantly, to bring together those working on EMT in development, cancer, fibrosis, and pathology. These themes continued during the recent meeting in Vancouver.Discussion at the Vancouver meeting spanned several areas of research, including signaling pathway activation of EMT and the transcription factors and gene targets involved. Also covered in detail was the basic cell biology of EMT and its role in cancer and fibrosis, as well as the identification of new markers to facilitate the observation of EMT in vivo. This is particularly important because the potential contribution of EMT during neoplasia is the subject of vigorous scientific debate (Tarin, D., E.W. Thompson, and D.F. Newgreen. 2005. Cancer Res. 65:5996–6000; Thompson, E.W., D.F. Newgreen, and D. Tarin. 2005. Cancer Res. 65:5991–5995).

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p53 regulates a G ₂ checkpoint through cyclin B1

Innocente

Abrahamson

Cogswell

et al. 1999

Proc. Natl. Acad. Sci. U.S.A.

404

278

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The p53 tumor suppressor controls multiple cell cycle checkpoints regulating the mammalian response to DNA damage. To identify the mechanism by which p53 regulates G 2 , we have derived a human ovarian cell that undergoes p53-dependent G 2 arrest at 32°C. We have found that p53 prevents G 2 ͞M transition by decreasing intracellular levels of cyclin B1 protein and attenuating the activity of the cyclin B1 promoter. Cyclin B1 is the regulatory subunit of the cdc2 kinase and is a protein required for mitotic initiation. The ability of p53 to control mitotic initiation by regulating intracellular cyclin B1 levels suggests that the cyclin Bdependent G 2 checkpoint has a role in preventing neoplastic transformation.

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Protein elongation factor EEF1A2 is a putative oncogene in ovarian cancer

Anand

Murthy

Amann³

et al. 2002

Nat Genet

235

222

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We have found that EEF1A2, the gene encoding protein elongation factor EEF1A2 (also known as eEF-1 alpha 2), is amplified in 25% of primary ovarian tumors and is highly expressed in approximately 30% of ovarian tumors and established cell lines. We have also demonstrated that EEF1A2 has oncogenic properties: it enhances focus formation, allows anchorage-independent growth and decreases the doubling time of rodent fibroblasts. In addition, EEF1A2 expression made NIH3T3 fibroblasts tumorigenic and increased the growth rate of ES-2 ovarian carcinoma cells xenografted in nude mice. Thus, EEF1A2 and the process of protein elongation are likely to be critical in the development of ovarian cancer.

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Jonathan M. Lee

The epithelial–mesenchymal transition: new insights in signaling, development, and disease

p53 regulates a G ₂ checkpoint through cyclin B1

Protein elongation factor EEF1A2 is a putative oncogene in ovarian cancer

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Jonathan M. Lee

The epithelial–mesenchymal transition: new insights in signaling, development, and disease

p53 regulates a G 2 checkpoint through cyclin B1

Protein elongation factor EEF1A2 is a putative oncogene in ovarian cancer

Contact Info

Product

Resources

About

p53 regulates a G ₂ checkpoint through cyclin B1