Journal
JOURNAL OF ORAL PATHOLOGY & MEDICINE
Volume 40, Issue 1, Pages 46-54Publisher
WILEY
DOI: 10.1111/j.1600-0714.2010.00936.x
Keywords
epithelial growth factor; epithelial-mesenchymal transition; laminin 332; oral squamous cell carcinoma; transforming growth factor beta-1
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Funding
- European Community [Health-F2-2008-201342 (ADAMANT)]
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Epithelial-mesenchymal transition (EMT) is suggested to be crucial for the development of an invasive and metastatic carcinoma cell phenotype. Therefore, the definition of this phenotype is of great clinical interest. We recently evidenced vimentin positive cells in oral squamous cell carcinoma (OSCC) invasive front expressing laminin gamma 2 chain mRNA implicating an EMT origin of these cells. To further elucidate the nature of these cells, we have investigated the relation between EMT criteria and laminin-332 expression in a cell culture model of transforming growth factor beta-1 (TGF beta 1)/epithelial growth factor (EGF) long time co-stimulation. We demonstrate that in contrast to TGF beta 1 or EGF alone, co-stimulation induces phenotype transition in OSCC cells which fulfils the criteria of EMT in terms of vimentin up-regulation and E-cadherin down-regulation on protein level as well as cell scattering. Furthermore, cells displayed a strongly enhanced invasiveness and adhesion to type I-IV collagens. Phenotype transition is accompanied by an enhanced expression of laminin-332, especially of its gamma 2 chain. We further analyse the expression of extracellular matrix related genes by RT-PCR profiling. With respect to strongly enhanced proteins, data confirm the EMT phenotype of co-stimulated OSCC cells and expression of laminin-332. Furthermore, alpha catenin, collagen type 16, the integrin alpha 7 and beta 1 chains, and MMP11 are suggested as candidates with potential role in EMT in OSCC. In summary we are able to show that EMT in OSCC is mediated by multiple growth factors and is accompanied by laminin gamma 2 chain up-regulation evidencing the existence of an intermediate Vim+/Ln332+ EMT phenotype as seen in situ.
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