The Potential Role of Integrin Regulation by Par6 in TGF-beta-induced Apoptosis

Avery-Cooper, Geordon James

25 August 2011

The Par6-polarity pathway regulates breast cancer metastasis, and more recently has been shown to regulate transforming growth factor β (TGFβ)-induced apoptosis. Integrins may mediate the regulation of TGFβ-induced apoptosis by Par6, as they are key regulators of cell polarity, survival and death. First, we confirmed that blocking Par6 activation significantly inhibits TGFβ-induced apoptosis in both monolayer and three-dimensional NMuMG (Normal Murine Mammary Gland) cell culture models. TGFβ altered the expression of β1 and β4 integrins in NMuMG monolayers. In addition, TGFβ significantly reduced the basal localization of α6 and β4 integrins in NMuMG three-dimensional acini-like structures (p < 0.001), which was dependent on both Par6 and TGFβ receptor I (TβRI)/SMAD activation. We went on to show that the activities of integrin pro-survival signaling mediators, NF-κB and FAK, were altered in response to TGFβ, and that blocking Par6 activation in the Par6/S345A mutant maintained polarity and basal α6 and β4 integrin expression in the presence of TGFβ in NMuMG three-dimensional structures, in addition to a significant increase in FAK activation. This suggests that TGFβ alters the expression, localization and downstream signaling of integrins, which may contribute to TGFβ-induced apoptosis

RhoGTPase Signaling in Cell Polarity and Gene Regulation

Johansson, Ann-Sofi

January 2006

<p>RhoGTPases are proteins working as molecular switches as they bind and hydrolyze GTP. They are in their active conformation when GTP is bound and are then able to interact with their effector proteins, which relay the downstream signaling. When the GTP is hydrolyzed to GDP, the RhoGTPase is inactivated. RhoGTPases have been shown to be activated by a variety of stimuli and they are implicated in regulation of diverse cellular processes, including cell migration, cell cycle progression, establishment of cell polarity and transformation. </p><p>We identified mammalian Par6 as a novel effector protein for the RhoGTPases Cdc42 and Rac1. The <i>Caenorhabditis elegans</i> homologue of Par6 had previously been shown to be essential for cell polarity development in the worm embryo. We found that endogenous Par6 colocalized with the tight junction protein ZO-1 in MDCKII epithelial cells. Par6 also interacted with mammalian Par3, another member of the <i>par</i> (for partitioning defective) gene family, first identified in <i>C.elegans</i>. Endogenous Par3 also localized to tight junctions in epithelial cells. This suggested that Par6 and Par3 are part of a complex regulating cell polarity also in mammalian cells. The interaction between Par6 and activated Cdc42 and Rac1 suggested a role for these RhoGTPases in the regulation of this complex.</p><p>Co-expression of Par6 together with PKCζ, induced a dramatic change in cell morphology. The cells rounded up and long cellular extensions, resembling neurites, were formed. The ability to induce these changes in cell morphology was found to be dependent on the direct interaction between Par6 and PKCζ, as well as on the kinase activity of PKCζ. We observed that cells co-expressing mPar6C and PKCζ contained bundled microtubules and microtubules that hade been acetylated, indicating that the microtubules were stabilized. </p><p>To investigate the roles of RhoGTPases in PDGF-induced gene expression we performed cDNA microarray analyses on AG01518 human foreskin fibroblasts in which we over-expressed the dominant negative forms of Cdc42, Rac1 and RhoA. We found that the expression of 16 genes, out of the 45 up-regulated by PDGF-BB, were inhibited ≥50% in the presence of dominant negative Cdc42, Rac1 or RhoA. 19 other genes were down-regulated by one or two of the dominant RhoGTPases. Our data implied that the expression of many PDGF-BB induced genes can be affected by RhoGTPase signaling. </p><p>In conclusion, the work presented here has increased the knowledge of the involvement of RhoGTPase signaling in establishment of cell polarity and gene regulation.</p>

Cell and molecular biology

RhoGTPase

Par6

cell polarity

aPKC

epithelial cell

PDGF

gene regulation

microarray

Cell- och molekylärbiologi

Cell and molecular biology

Cell- och molekylärbiologi

RhoGTPase Signaling in Cell Polarity and Gene Regulation

Johansson, Ann-Sofi

January 2006

RhoGTPases are proteins working as molecular switches as they bind and hydrolyze GTP. They are in their active conformation when GTP is bound and are then able to interact with their effector proteins, which relay the downstream signaling. When the GTP is hydrolyzed to GDP, the RhoGTPase is inactivated. RhoGTPases have been shown to be activated by a variety of stimuli and they are implicated in regulation of diverse cellular processes, including cell migration, cell cycle progression, establishment of cell polarity and transformation. We identified mammalian Par6 as a novel effector protein for the RhoGTPases Cdc42 and Rac1. The Caenorhabditis elegans homologue of Par6 had previously been shown to be essential for cell polarity development in the worm embryo. We found that endogenous Par6 colocalized with the tight junction protein ZO-1 in MDCKII epithelial cells. Par6 also interacted with mammalian Par3, another member of the par (for partitioning defective) gene family, first identified in C.elegans. Endogenous Par3 also localized to tight junctions in epithelial cells. This suggested that Par6 and Par3 are part of a complex regulating cell polarity also in mammalian cells. The interaction between Par6 and activated Cdc42 and Rac1 suggested a role for these RhoGTPases in the regulation of this complex. Co-expression of Par6 together with PKCζ, induced a dramatic change in cell morphology. The cells rounded up and long cellular extensions, resembling neurites, were formed. The ability to induce these changes in cell morphology was found to be dependent on the direct interaction between Par6 and PKCζ, as well as on the kinase activity of PKCζ. We observed that cells co-expressing mPar6C and PKCζ contained bundled microtubules and microtubules that hade been acetylated, indicating that the microtubules were stabilized. To investigate the roles of RhoGTPases in PDGF-induced gene expression we performed cDNA microarray analyses on AG01518 human foreskin fibroblasts in which we over-expressed the dominant negative forms of Cdc42, Rac1 and RhoA. We found that the expression of 16 genes, out of the 45 up-regulated by PDGF-BB, were inhibited ≥50% in the presence of dominant negative Cdc42, Rac1 or RhoA. 19 other genes were down-regulated by one or two of the dominant RhoGTPases. Our data implied that the expression of many PDGF-BB induced genes can be affected by RhoGTPase signaling. In conclusion, the work presented here has increased the knowledge of the involvement of RhoGTPase signaling in establishment of cell polarity and gene regulation.

Cell and molecular biology

RhoGTPase

Par6

cell polarity

aPKC

epithelial cell

PDGF

gene regulation

microarray

Cell- och molekylärbiologi

Cell and molecular biology

Cell- och molekylärbiologi