Albert Dowejko scite author profile

Cadherins belong to a family of Ca(2+)-dependent homophilic cell-cell adhesion proteins that are important for correct cellular localization and tissue integrity. They play a major role in the development and homeostasis of epithelial architecture. Recently, it has become more and more evident that P-cadherin contributes to the oncogenesis of many tumors. To analyze the role of P-cadherin in oral squamous cell carcinoma (OSCC), we used a cell line that was deficient of the classical cadherins, P-cadherin, E-cadherin and N-cadherin. This cell line was transfected with full-length P-cadherin (PCI52_PC). After overexpression of P-cadherin, PCI52_PC gained an epithelial-like brickstone morphology in contrast to the mock-transfected cells with a spindle-shaped mesenchymal morphology. Immunohistochemical analysis revealed a strong nuclear Snail staining in mock-transfected cells compared with a significantly reduced nuclear staining and translocation to the cytoplasm in P-cadherin-overexpressing cells. Interestingly, the effects triggered by P-cadherin overexpression could be reversed by transfecting the cells with an antisense P-cadherin plasmid construct. Additional investigations showed a reexpression of E-cadherin in all P-cadherin-transfected cell clones in contrast to the mock controls. Analyzing the signaling mechanism behind it, we found glycogen-synthase-kinase-3beta (GSK-3beta) bound to Snail in all cell clones. Furthermore, P-cadherin-overexpressing cell lines showed activated GSK-3beta that phosphorylated Snail leading to its cytoplasmic translocation. In summary, our results reveal P-cadherin as one major component in reconfiguring mesenchymal cells with epithelial features by triggering GSK-3beta-mediated inactivation and cytoplasmatic translocation of Snail in OSCC.

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Slit-2 facilitates interaction of P-cadherin with Robo-3 and inhibits cell migration in an oral squamous cell carcinoma cell line

Bauer

Dowejko²,

Bosserhoff

et al. 2011

Carcinogenesis

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Slits are a group of secreted glycoproteins that act as molecular guidance cues in cellular migration. Recently, several studies demonstrated that Slit-2 can operate as candidate tumour suppressor protein in various tissues. In this study, we show Slit-2 expression in basal cell layers of normal oral mucosa colocalized with P-cadherin expression. In contrast, there is a loss of Slit-2 and P-cadherin expression in mucosa of oral squamous cell carcinoma (OSCC). Our in vitro investigations reveal a correlation of P-cadherin and Slit-2 expression: OSCC cells with induced P-cadherin expression (PCI52_PC) display an increased Slit-2 expression. However, abrogating P-cadherin function with a function-blocking antibody decreases Slit-2 secretion confirming a direct link between P-cadherin and Slit-2. Moreover, experiments with OSCC cells show that Slit-2 interferes with a Wnt related signalling pathway, which in turn affects Slit-2 expression in a feedback loop. Functionally, transwell migration assays demonstrate a Slit-2 dose-dependent decrease of PCI52_PC cell migration. However, there is no influence on migration in mock control cells. Responsible for this migration block might be an interaction of P-cadherin with Roundabout (Robo)-3, a high affinity receptor of Slit-2. Indeed, proximity ligation assays exhibit P-cadherin/Robo-3 interactions on PCI52_PC cells. Additionally, we detect a modulation of this interaction by addition of recombinant Slit-2. Down-regulation of Robo-3 expression via small interfering RNA neutralizes Slit-2 induced migration block in PCI52_PC cells. In summary, our experiments show antitumorigenic effects of Slit-2 on P-cadherin expressing OSCC cells supposedly via modulation of Robo-3 interaction.

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The human HECA interacts with cyclins and CDKs to antagonize Wnt-mediated proliferation and chemoresistance of head and neck cancer cells

Dowejko

Bauer

et al. 2012

Experimental Cell Research

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Induction of type XVI collagen expression facilitates proliferation of oral cancer cells

et al. 2011

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The human homolog of the Drosophila headcase protein slows down cell division of head and neck cancer cells

Dowejko¹,

Bauer²,

Müller‐Richter

et al. 2009

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The human homolog of the Drosophila headcase (HECA) belongs to a new class of cell differentiation regulators. In Drosophila, the HECA protein regulates the proliferation and differentiation of cells during adult morphogenesis. There is growing evidence that HECA plays an important role in human carcinogenesis. In different tumor entities, an altered HECA expression was found (colorectal, pancreatic and renal cancer). Colorectal cancer studies also suggested HECA as a marker for early disease stages. Therefore, we speculated whether human HECA affects cell cycle progression and proliferation in head and neck cancer cells. In vivo, we found a distinct HECA protein expression in basal and superficial cells of a healthy oral epithelium via immunohistochemistry, whereas in tissues of oral squamous cell carcinoma (OSCC), a weaker staining was observed, particularly in basal cells. In vitro, mRNA and protein expression analyses of OSCC cell lines exhibited that HECA expression correlates with the state of cellular differentiation. In further investigations, we overexpressed HECA in the OSCC cell line PCI 13 and performed functional assays. HECA-overexpressing OSCC cells revealed a significant extended doubling time (up to 45%, 17 h) and yielded a lower number of proliferating cells (up to 30%) than controls. Flow cytometry analyses have shown that HECA-overexpressing OSCC cells forced to hold in the G(2)/M-Phase. In summary, our results show that human HECA slows down cell division of OSCC cells and may therefore act as a tumor suppressor in head and neck cancer.

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Albert Dowejko

P-cadherin induces an epithelial-like phenotype in oral squamous cell carcinoma by GSK-3beta-mediated Snail phosphorylation

Slit-2 facilitates interaction of P-cadherin with Robo-3 and inhibits cell migration in an oral squamous cell carcinoma cell line

The human HECA interacts with cyclins and CDKs to antagonize Wnt-mediated proliferation and chemoresistance of head and neck cancer cells

Induction of type XVI collagen expression facilitates proliferation of oral cancer cells

The human homolog of the Drosophila headcase protein slows down cell division of head and neck cancer cells

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