Regulation of Cell-Cell Adhesion by Rac and Rho Small G Proteins in MDCK Cells

doi:10.1083/jcb.139.4.1047

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J. Cell Biol., Volume 139, Number 4, November 17, 1997 1047-1059

Regulation of Cell-Cell Adhesion by Rac and Rho Small G Proteins in MDCK Cells

Kenji Takaishi,^* Takuya Sasaki,^* Hirokazu Kotani,^* Hideo Nishioka, and Yoshimi Takai^*

^* Department of Molecular Biology and Biochemistry, Osaka University Medical School, Suita 565, Japan; and Takai Biotimer Project, ERATO, Japan Science and Technology Corporation, JCR Pharmaceuticals Co., Ltd., Nishi-ku, Kobe 651-22, Japan

The Rho small G protein family, consisting of the Rho, Rac, and Cdc42 subfamilies, regulates various cell functions, suchas cell shape change, cell motility, and cytokinesis, throughreorganization of the actin cytoskeleton. We show here that theRac and Rho subfamilies furthermore regulate cell-cell adhesion.We prepared MDCK cell lines stably expressing each of dominantactive mutants of RhoA (sMDCK-RhoDA), Rac1 (sMDCK-RacDA), andCdc42 (sMDCK-Cdc42DA) and dominant negative mutants of Rac1 (sMDCK-RacDN)and Cdc42 (sMDCK-Cdc42DN) and analyzed cell adhesion in thesecell lines. The actin filaments at the cell-cell adhesion sitesmarkedly increased in sMDCK-RacDA cells, whereas they apparentlydecreased in sMDCK-RacDN cells, compared with those in wild-typeMDCK cells. Both E-cadherin and $beta$ -catenin, adherens junctionalproteins, at the cell-cell adhesion sites also increased in sMDCK-RacDAcells, whereas both of them decreased in sMDCK-RacDN cells. Thedetergent solubility assay indicated that the amount of detergent-insolubleE-cadherin increased in sMDCK-RacDA cells, whereas it slightlydecreased in sMDCK-RacDN cells, compared with that in wild-typeMDCK cells. In sMDCK-RhoDA, -Cdc42DA, and -Cdc42DN cells, neitherof these proteins at the cell-cell adhesion sites was apparentlyaffected. ZO-1, a tight junctional protein, was not apparentlyaffected in any of the transformant cell lines. Electron microscopicanalysis revealed that sMDCK-RacDA cells tightly made contactwith each other throughout the lateral membranes, whereas wild-typeMDCK and sMDCK-RacDN cells tightly and linearly made contact atthe apical area of the lateral membranes. These results suggestthat the Rac subfamily regulates the formation of the cadherin-basedcell- cell adhesion. Microinjection of C3 into wild-type MDCKcells inhibited the formation of both the cadherin-based cell-celladhesion and the tight junction, but microinjection of C3 intosMDCK-RacDA cells showed little effect on the localization ofthe actin filaments and E-cadherin at the cell-cell adhesion sites.These results suggest that the Rho subfamily is necessary forthe formation of both the cadherin-based cell- cell adhesion andthe tight junction, but not essential for the Rac subfamily-regulated,cadherin-based cell- cell adhesion.

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