Browsing by Author "Ke, Hengning"
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Item Open Access BCL2 inhibits cell adhesion, spreading, and motility by enhancing actin polymerization.(Cell Res, 2010-04) Ke, Hengning; Parron, Vandy I; Reece, Jeff; Zhang, Jennifer Y; Akiyama, Steven K; French, John EBCL2 is best known as a multifunctional anti-apoptotic protein. However, little is known about its role in cell-adhesive and motility events. Here, we show that BCL2 may play a role in the regulation of cell adhesion, spreading, and motility. When BCL2 was overexpressed in cultured murine and human cell lines, cell spreading, adhesion, and motility were impaired. Consistent with these results, the loss of Bcl2 resulted in higher motility observed in Bcl2-null mouse embryonic fibroblast (MEF) cells compared to wild type. The mechanism of BCL2 regulation of cell adhesion and motility may involve formation of a complex containing BCL2, actin, and gelsolin, which appears to functionally decrease the severing activity of gelsolin. We have observed that the lysate from MCF-7 and NIH3T3 cells that overexpressed BCL2 enhanced actin polymerization in cell-free in vitro assays. Confocal immunofluorescent localization of BCL2 and F-actin during spreading consistently showed that increased expression of BCL2 resulted in increased F-actin polymerization. Thus, the formation of BCL2 and gelsolin complexes (which possibly contain other proteins) appears to play a critical role in the regulation of cell adhesion and migration. Given the established correlation of cell motility with cancer metastasis, this result may explain why the expression of BCL2 in some tumor cell types reduces the potential for metastasis and is associated with improved patient prognosis.Item Open Access CYLD inhibits melanoma growth and progression through suppression of the JNK/AP-1 and β1-integrin signaling pathways.(J Invest Dermatol, 2013-01) Ke, Hengning; Augustine, Christina K; Gandham, Vineela D; Jin, Jane Y; Tyler, Douglas S; Akiyama, Steven K; Hall, Russell P; Zhang, Jennifer YThe molecular mechanisms mediating cylindromatosis (CYLD) tumor suppressor function appear to be manifold. Here, we demonstrate that, in contrast to the increased levels of phosphorylated c-Jun NH(2)-terminal kinase (pJNK), CYLD was decreased in a majority of the melanoma cell lines and tissues examined. Exogenous expression of CYLD but not its catalytically deficient mutant markedly inhibited melanoma cell proliferation and migration in vitro and subcutaneous tumor growth in vivo. In addition, the melanoma cells expressing exogenous CYLD were unable to form pulmonary tumor nodules following tail-vein injection. At the molecular level, CYLD decreased β1-integrin and inhibited pJNK induction by tumor necrosis factor-α or cell attachment to collagen IV. Moreover, CYLD induced an array of other molecular changes associated with modulation of the "malignant" phenotype, including a decreased expression of cyclin D1, N-cadherin, and nuclear Bcl3, and an increased expression of p53 and E-cadherin. Most interestingly, coexpression of the constitutively active MKK7 or c-Jun mutants with CYLD prevented the above molecular changes, and fully restored melanoma growth and metastatic potential in vivo. Our findings demonstrate that the JNK/activator protein 1 signaling pathway underlies the melanoma growth and metastasis that are associated with CYLD loss of function. Thus, restoration of CYLD and inhibition of JNK and β1-integrin function represent potential therapeutic strategies for treatment of malignant melanoma.