Abstract
Heregulin (HRG) β1 signaling promotes scattering of MCF7 cells by inducing breakdown of adherens and tight junctions. Here, we show that stimulation with HRG-β1 causes the F-actin backbone of junctions to destabilize prior to the loss of adherent proteins and scattering of the cells. The adherent proteins dissociate and translocate from cell–cell junctions to the cytosol. Moreover, using inhibitors we show that the MEK1 pathway is required for the disappearance of F-actin from junctions and p38 MAP kinase activity is essential for scattering of the cells. Upon treatment with a p38 MAP kinase inhibitor, adherens junction complexes immediately reassemble, most likely in the cytoplasm, and move to the plasma membrane in cells dissociated by HRG-β1 stimulation. Subsequently, tight junction complexes form, most likely in the cytoplasm, and move to the plasma membrane. Thus, the p38 MAP kinase inhibitor causes a re-aggregation of scattered cells, even in the presence of HRG-β1. These results suggest that p38 MAP kinase signaling to adherens junction proteins regulates cell aggregation, providing a novel understanding of the regulation of cell–cell adhesion.
Highlights
Under certain conditions in vitro, some aggregated epithelial cells can lose their cell–cell interaction, acquire higher cell motility and dissociate
E-cadherin and occludin were still present at the cell–cell adhesion, suggesting that presence of adherent proteins is sufficient for cell–cell adhesion
We showed that HRG-b1 regulates cell–cell adhesion via the p38 MAP kinase cascade
Summary
Under certain conditions in vitro, some aggregated epithelial cells can lose their cell–cell interaction, acquire higher cell motility and dissociate. The mechanism for epithelial cell dissociation ( known as scattering) is not clear, it likely reflects some response to unknown stimuli in vivo. Nectins present on the surface of each cell interact to form the initial connection between two cells [9,10]. E-cadherin, occludin, and claudin proteins of neighboring cells bind and produce adherens and tight junctions [11,12,13]. These interactions appear to be programmed to form complexes
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