Papillary thyroid carcinomas (PTCs) that invade into local structures are associated with a poor prognosis, but the mechanisms for PTC invasion are incompletely defined, limiting the development of new therapies. To characterize biological processes involved in PTC invasion, we analyzed the gene expression profiles of microscopically dissected intratumoral samples from central and invasive regions of seven widely invasive PTCs and normal thyroid tissue by oligonucleotide microarray and performed confirmatory expression and functional studies. In comparison with the central regions of primary PTCs, the invasive fronts overexpressed TGF , NFB and integrin pathway members, and regulators of small G proteins and CDC42. Moreover, reduced levels of mRNAs encoding proteins involved in cell-cell adhesion and communication were identified, consistent with epithelial-to-mesenchymal transition (EMT). To confirm that aggressive PTCs were characterized by EMT, 34 additional PTCs were examined for expression of vimentin, a hallmark of EMT. Overexpression of vimentin was associated with PTC invasion and nodal metastasis. Functional, in vitro studies demonstrated that vimentin was required both for the development and maintenance of a mesenchymal morphology and invasiveness in thyroid cancer cells. We conclude that EMT is common in PTC invasion and that vimentin regulates thyroid cancer EMT in vitro.cdc42 ͉ runx2 ͉ thyroid cancer ͉ vimentin T hyroid carcinoma is the most common classical endocrine malignancy, and its incidence is rising rapidly, due almost entirely to an increase in papillary thyroid carcinoma (PTC) diagnoses (1). Patients diagnosed with PTC at an early stage have an excellent prognosis; however, individuals with large, invasive tumors and/or distant metastases have a 5-year survival rate of Ϸ40% (2, 3). Thus, there is a need to better understand the molecular causes of thyroid cancer progression to develop new treatment options.The genetic defects believed to be responsible for PTC initiation have been identified in the majority of cases; these include genetic rearrangements involving the tyrosine kinase domain of RET and activating mutations of BRAF and RAS (3-5). Although some correlation studies support an association between specific genetic alterations and aggressive cancer behavior (6-9), there are a number of events that are found nearly exclusively in aggressive PTCs, including mutations of P53 (10, 11), dysregulated -catenin signaling (12), up-regulation of cyclin D1 (13), and overexpression of metastasis-promoting, angiogenic, and/or cell adhesion-related genes (14-20). We have determined that invasive regions of primary PTCs are frequently characterized by enhanced Akt activity and cytosolic p27 localization (21, 22). We, and others, have also demonstrated functional roles for PI3 kinase, Akt, and p27 in PTC cell invasion in vitro (16,23,24). However, the correlation between increased Akt activity and invasion was not found for PTCs with activating BRAF mutations. Most importantly, these focused s...
