TP53INP1 decreases pancreatic cancer cell migration by regulating SPARC expression.

Tumor protein 53 induced nuclear protein 1 (TP53INP1) is a p53 target gene that induces cell growth arrest and apoptosis by modulating p53 transcriptional activity. TP53INP1 interacts physically with p53 and is a major player in the p53-driven oxidative stress response. Previously, we demonstrated that TP53INP1 is downregulated in an early stage of pancreatic cancerogenesis and when restored is able to suppress pancreatic tumor development. TP53INP1 downregulation in pancreas is associated with an oncogenic microRNA miR-155. In the present work, we studied the effects of TP53INP1 on cell migration. We found that TP53INP1 inactivation correlates with increased cell migration both in vivo and in vitro. The impact of TP53INP1 expression on cell migration was studied in different cellular contexts: mouse embryonic fibroblast and different pancreatic cancer cell lines. Its expression decreases cell migration by the transcriptional downregulation of secreted protein acidic and rich in cysteine (SPARC). SPARC is a matrix cellular protein, which governs diverse cellular functions and has a pivotal role in regulating cell-matrix interactions, cellular proliferation and migration. SPARC was also showed to be upregulated in normal pancreas and in pancreatic intraepithelial neoplasia lesions in a pancreatic adenocarcinoma mouse model only in the TP53INP1-deficient animals. This novel TP53INP1 activity on the regulation of SPARC expression could explain in part its tumor suppressor function in pancreatic adenocarcinoma by modulating cellular spreading during the metastatic process.

In vivo perimenstrual activation of progelatinase B (proMMP-9) in the human endometrium and its dependence on stromelysin 1 (MMP-3) ex vivo.

Most matrix metalloproteinases (MMPs) are secreted as inactive proenzymes. Their expression is well documented in several human tissues, but their activators in vivo are still unknown. To address this question, the activation of progelatinase B (proMMP-9) in the human endometrium was selected as a model system. ProMMP-9 was detected by gelatin zymography in homogenates of fresh endometrial tissue sampled during all phases of the menstrual cycle, whereas its active form was observed only during the late secretory and menstrual phases. Furthermore, proMMP-9 was expressed and activated in endometrial explants sampled outside the perimenstrual phase and cultured in the absence of both progesterone and oestradiol, mimicking the menstrual condition in vivo. Analysis of such tissue cultures by gelatin zymography and Western blotting showed that activation of proMMP-9 depended on a secreted factor and was selectively inhibited by either a synthetic inhibitor of stromelysin 1 (MMP-3) or a monoclonal antibody that specifically blocks MMP-3, thus providing strong evidence for the activation of proMMP-9 in vivo by MMP-3. The activation of proMMP-3 was itself inhibited by a broad-range MMP inhibitor in most cultures, but seemed to involve multiple pathways, implying both serine proteinases and metalloproteinases, which could operate in parallel or sequentially.

Involvement of fibronectin type II repeats in the efficient inhibition of gelatinases A and B by long-chain unsaturated fatty acids.

The matrix metalloproteinases gelatinase A (MMP-2) and gelatinase B (MMP-9) are implicated in the physiological and pathological breakdown of several extracellular matrix proteins. In the present study, we show that long-chain fatty acids (e.g. oleic acid, elaidic acid, and cis- and trans-parinaric acids) inhibit gelatinase A as well as gelatinase B with K(i) values in the micromolar range but had only weak inhibitory effect on collagenase-1 (MMP-1), as assessed using synthetic or natural substrates. The inhibition of gelatinases depended on fatty acid chain length (with C18 > C16, C14, and C10), and the presence of unsaturations increased their inhibitory capacity on both types of gelatinase. Ex vivo experiments on human skin tissue sections have shown that micromolar concentrations of a long-chain unsaturated fatty acid (elaidic acid) protect collagen and elastin fibers against degradation by gelatinases A and B, respectively. In order to understand why gelatinases are more susceptible than collagenase-1 to inhibition by long-chain fatty acids, the possible role of the fibronectin-like domain (a domain unique to gelatinases) in binding inhibitory fatty acids was investigated. Affinity and kinetic studies with a recombinant fibronectin-like domain of gelatinase A and with a recombinant mutant of gelatinase A from which this domain had been deleted pointed to an interaction of long-chain fatty acids with the fibronectin-like domain of the protease. Surface plasmon resonance studies on the interaction of long-chain fatty acids with the three individual type II modules of the fibronectin-like domain of gelatinase A revealed that the first type II module is primarily responsible for binding these compounds.

Outside-in regulation of integrin clustering processes by ECM components per se and their involvement in actin cytoskeleton organization in a colon adenocarcinoma cell line.

We investigated in a colon adenocarcinoma cell line, the exclusive role of extracellular matrix (ECM) components in the absence of soluble factors regarding the integrin clustering processes, and their implication in cell adhesion, spreading and organization of the actin cytoskeleton. Caco-2 cells were shown to express at the plasma membrane 11 integrins, some of which (e.g. alpha3beta1, alpha5beta1, alpha6beta1/beta4, alpha8beta1 and alpha(v)beta1/beta5/beta6) were identified for the first time in this cell line. Cell adhesion and spreading processes were governed essentially by lamellipodium, the regulation of which was shown to be induced by two types of integrin clustering processes mediated by ECM proteins alone. During these phenomena, alpha2beta1, alpha(v)beta6 and alpha6beta1 integrins, the Caco-2 cell specific receptors of type IV collagen, fibronectin and laminin, respectively, were clustered in small focal complexes (point contacts), whereas alpha(v)beta5, the vitronectin receptor in this cell line, was aggregated in focal adhesions. The two levels of integrin clustering induced only F-actin cortical web formation organized in thin radial and/or circular filaments. We conclude thus that ECM components per se through their action on integrin clustering are involved in cell adhesion, cortical actin cytoskeleton organization and cell spreading.

Circulating sex hormones and endometrial stromelysin-1 (matrix metalloproteinase-3) at the start of bleeding episodes in levonorgestrel-implant users.

Unpredictable endometrial bleeding is the major side-effect of levonorgestrel-releasing s.c. implants (Norplant), otherwise a method of choice for long-term contraception. The mechanisms responsible for bleeding are still unknown and no reliable treatment is available. Several matrix metalloproteinases (MMP) are expressed and activated in human endometrium only at menstruation and specific synthetic inhibitors of MMP fully prevent the tissue breakdown that occurs in menstrual-like endometrial explants. To investigate whether MMP are inappropriately expressed and activated in Norplant-treated endometria during bleeding episodes, volunteers were recruited to provide blood and endometrial biopsies at the start of bleeding episodes and during non-bleeding intervals. Whereas serum concentrations of levonorgestrel and sex hormones showed no change at bleeding, except for a slight decrease of oestradiol concentration, the expression and activation of stromelysin-1 released by explants cultured for 1 day were consistently increased at the start of bleeding episodes. Furthermore, stromelysin-1 was immunolocalized in stromal cells within breakdown areas of several bleeding endometria, but not in non-bleeding endometria. These observations suggest that the expression and activation of stromelysin-1 participate in the initiation of bleeding episodes upon Norplant contraception. New strategies in the prevention and treatment of abnormal bleeding based on MMP control should be envisaged.

Role of endoproteolytic processing in the adhesive and signaling functions of alphavbeta5 integrin.

Some integrin alpha subunits undergo a post-translational cleavage in their extracellular domain. However, the role of this cleavage in integrin function is unclear. Enzymes involved in this maturation belong to the subtilisin-like endoprotease family (convertases). To understand the role of the alpha subunit cleavage in integrin function, we have designed stable transfectants (PDX39P cells) expressing alpha(1)-PDX, a convertase inhibitor. Immunoprecipitation of cell surface proteins from PDX39P showed that alpha(3), alpha(6) and alpha(v) integrins lack endoproteolytic cleavage. We have compared adhesion between PDX39P cells and mock-transfected cells on different extracellular matrix proteins. No difference in adhesion could be observed on laminin-1 and type I collagen, while attachment of PDX39P cells to vitronectin (ligand of the alpha(v)beta(5) integrin) was dramatically reduced. The reduced adhesion of PDX39P cells was not due to changes in integrin affinity as determined by solid-phase receptor assay in a cell-free environment. Intracellular signaling pathways activated by alpha(v) integrin ligation were also affected in PDX39P cells. It thus seems that the absence of endoproteolytic cleavage of alpha(v) integrins has important consequences on signal transduction pathways leading to alterations in integrin function such as cell adhesion.

Temporal and spatial association of matrix metalloproteinases with focal endometrial breakdown and bleeding upon progestin-only contraception.

The pathogenesis of irregular endometrial bleeding, the main reason for stopping contraception with progestins only, is unknown. Based on the recent reappraisal of the mechanisms of menstrual bleeding, we hypothesized that matrix metalloproteinases initiate this disorder. Volunteers upon Norplant treatment provided endometrial biopsies at the start of a bleeding episode and during nonbleeding intervals. Focal stromal breakdown, collagen fiber lysis, and collagenase-1 messenger ribonucleic acid were evidenced in most bleeding endometria, but never in the nonbleeding ones. In the breaking down areas, immunolabeling for gelatinase A was strongly increased, and that of progesterone and estrogen receptors was decreased. Explants from bleeding endometria produced high collagenase and gelatinase activities, whereas release from nonbleeding endometria was negligible. Bleeding endometria released more latent and active forms of collagenase-1 and active gelatinases A and B, but less tissue inhibitor of metalloproteinases-1, than nonbleeding endometria. Collagenase-1 release closely correlated with that of interleukin-1alpha. In contrast, N:-acetyl-beta-hexosaminidase and tissue inhibitor of metalloproteinases-2 were similarly released in both groups. Thus, endometrial bleeding occurs together with focal stromal breakdown, collagen lysis, expression and activation of several matrix metalloproteinases, and decreased production of tissue inhibitor of metalloproteinases-1. These results may lead to new pharmacological treatment of this common medical problem.

Integrins and E-cadherin cooperate with IGF-I to induce migration of epithelial colonic cells.

Although the detailed mechanisms of cell migration remain largely unknown, it is now clear that growth factors and cell adhesion molecules are crucial for this process. We have shown that type I insulin-like growth factor (IGF-I) promotes migration of human colonic tumour cells. Since morphological analysis suggested an involvement of adhesion molecules, we have now examined the role of integrins (cell-matrix adhesion molecules) and E-cadherin/catenins complex (cell-cell adhesion molecules) in the IGF-I-induced migration. Using a monolayer wounding assay, we have determined that, except for alpha2beta1, all of the integrins expressed in HT29-D4 cells are involved in the induced cell migration. Immunofluorescence studies revealed that upon IGF-I stimulation the integrins reorganized at the leading edge of migrating cells. We also demonstrate that E-cadherin is involved in cell migration. A rapid tyrosine phosphorylation of E-cadherin and beta-catenin was detected upon IGF-I stimulation. Tyrosine phosphorylation was associated with reduced membranous expression of E-cadherin and promotion of cell motility, suggesting a regulation of the E-cadherin/catenins complex. This effect can be reversed by incubating cells with tyrosine kinase inhibitors. Taken together, our results suggest that IGF-I promotes colonic cell migration through reorganization of integrin receptors and through modulation of E-cadherin/catenins complex function.

Biogenesis of alpha6beta4 integrin in a human colonic adenocarcinoma cell line involvement of calnexin.

The heterodimer alpha6beta4 is a major integrin and the main laminin receptor in epithelia. The alpha6 integrin subunit is proteolytically cleaved, probably by furin, and glycosylated during its biosynthesis. In the present work, we have investigated the kinetics of the assembly process of alpha6beta4 heterodimers in the colonic adenocarcinoma cell line HT29-D4. We demonstrate that the association of alpha6 and beta4 precursors occurs within the ER, while the endoproteolytic cleavage of pro-alpha6 occurs later, probably in the trans-Golgi network. When pro-alpha6 was blocked within the ER by treatment with brefeldin A, its maturation processing was completely prevented without any consequence on its association with beta4 subunit. Low temperature (20 degrees C) also blocked pro-alpha6 maturation, like brefeldin A, but in addition impaired the integrin assembly. Calnexin, an ER resident protein chaperone, was found to be associated with both the alpha6 and beta4 subunit precursors. Our data suggest that calnexin might be responsible for the prolonged retention of pro-alpha6 within the ER compartment and for the defect of integrin subunit association observed at low temperature.

Migration properties of the human ovarian adenocarcinoma cell line IGROV1: importance of alpha(v)beta3 integrins and vitronectin.

Cell migration of ovarian tumoral cells is essential for cell dissemination and for invasion of the submesothelial extracellular matrix (ECM). We have conducted a study of the migratory properties of an ovarian adenocarcinoma cell line (IGROV1) by using 2 distinct methods for the evaluation of cell migration. We found that in a short-term transfilter migration assay, IGROV1 cells migrated toward vitronectin, fibronectin, type IV collagen and laminin in an integrin-dependent manner. When migration was evaluated in a wound healing assay, the restitution of the wounded area was stimulated solely by added, exogenous vitronectin and was almost totally dependent on alpha(v)beta3 integrin function. Moreover, we demonstrated that alpha(v)beta3 was localized in focal contacts restricted to the leading edge of migrating cells, whereas vitronectin notably localized with actin stress fibers and cortical actin. On the other hand, several kinase inhibitors were found to impede migration of IGROV1 induced by vitronectin. It thus appears that alpha(v)beta3-vitronectin interactions lead to the activation of multiple signaling pathway including activation of protein kinase C, phosphatidyl-inositol-3-phosphate kinase and protein tyrosine kinase. The "alpha(v)beta3-vitronectin system" is therefore essential to the migration of human ovarian carcinoma cells.

Protein kinases C-gamma and -delta are involved in insulin-like growth factor I-induced migration of colonic epithelial cells.

BACKGROUND & AIMS: The mechanisms by which epithelial cells migrate during the repair of damaged colonic mucosa are poorly understood. This study investigated the insulin-like growth factor I (IGF-I) signaling pathway leading to HT29-D4 human colonic epithelial cell line migration. METHODS: IGF-stimulated cell migration was determined using a wound model in the presence or absence of kinase inhibitors. Activation of protein kinase C (PKC) was determined by immunodetection. RESULTS: IGF-I and insulin induce cell migration without affecting cell proliferation through their cognate receptors. Des(1-3)-IGF-I, a truncated analogue of IGF-I, was more potent than IGF-I, suggesting that IGF-binding proteins secreted in the medium modulated IGF-I-induced cell migration. Inhibition of phosphatidylinositol 3-kinase, PKC, and mitogen-activated protein kinases eliminated cell restitution. Long-term exposure of cells to phorbol myristate acetate caused the depletion of PKC-delta and -gamma and prevented also IGF-I-induced cell motility. IGF-I also induced activation of PKC-delta and -gamma only. CONCLUSIONS: IGF-I stimulates colonic restitution through the activation of multiple signaling pathways including activation of phosphatidylinositol 3-kinase, PKC-delta and -gamma, and mitogen-activated protein kinases.

Convergent effects of growth factors, hormones, and fibronectin are necessary for the enterocyte differentiation of a colon adenocarcinoma cell line (HT29-D4).

The aim of this work was to show in serum-free medium a convergent effect of physiological factors and extracellular matrix proteins on the differentiation process of enterocytes by taking as a model the HT29-D4 clone that has the feature of differentiating when subcultured in fetal bovine serum glucose-free medium. We show that triiodothyronine (T3) as well as insulin promotes limited cell growth and differentiation, whereas fibronectin or bovine serum albumin (BSA) induces cell growth and a low level of differentiation. However, insulin, T3, fibronectin, and BSA together with epidermal growth factor and transferrin promoted satisfactory growth and enterocyte morphology with epithelial electrophysiological properties in HT29-D4 cells. With these factors adequate protein targeting was achieved since cells apically expressed the carcinoembryonic antigen, and basolaterally transferrin and insulin receptors, beta 1 and alpha v beta 6 integrins, talin, vinculin, and focal adhesion kinase (FAK). Talin, vinculin, FAK, and alpha v beta 6 integrin, the fibronectin receptor, were clustered in focal contacts, which agrees with a possible role of fibronectin in final cell growth, the latter process mediating the final phase of differentiation. This level of differentiation can be maintained for a long time. Thus HT29-D4 cells appear to be a suitable model to study the implication of integrins in the differentiation process of human enterocytes.

Integrin ligation and PKC activation are required for migration of colon carcinoma cells.

The activation of protein kinases C (PKCs) is an essential step in integrin-dependent cell adhesion and spreading. In this report we examined the effect of the phorbol ester PMA, a PKC activator, on adhesion, spreading and migration of a colon carcinoma cell line, HT29-D4. Treatment with PMA increased the rate of cell spreading and induced the migration of these cells towards purified matrix proteins in haptotaxis assays on Boyden chambers. PMA-induced effects were the result of PKCs activation, as shown by using the inactive isomer 4alpha-PMA and PKCs inhibitors. The involvement of integrins in the phorbol ester-induced cell migration was demonstrated both by the absence of migration of cells plated on membranes coated with poly-L-lysine and by the use of function blocking antibodies. Thus, interactions between alpha 2beta1, alpha3beta1, alpha6beta4, alpha vbeta5, alphavbeta6 integrins and their specific ligands are necessary for the PKC-mediated migration. However, adhesion, immunoprecipitation and immunocytofluorometry experiments clearly showed that HT29-D4 cell haptotaxis induced by PKC activation is not a consequence of quantitative or qualitative changes in the cell surface integrins. We also demonstrated that PKCs were able to activate the MAP kinase pathway and that the impediment of MAP kinase activation resulted in the loss of cell migration. Moreover, stimulation of the insulin-like growth factor I signalling pathway led to MAP kinase activation and to the induction of cell migration. In addition, the growth factor-induced motility of HT29-D4 cells was affected both by PKC and MAP kinase cascade inhibitors. It thus appears that both integrin ligation and MAP kinase activation by PKCs are required to promote the migration of HT29-D4 cells.

Lack of integrin alpha-chain endoproteolytic cleavage in furin-deficient human colon adenocarcinoma cells LoVo.

In the present report the biosynthesis of the integrin alpha-chains endowed with constitutive endoproteolytic cleavage was evaluated in LoVo cells where furin, a subtilisin-like convertase involved in post-translational endoproteolytic processing, is not functional. It was found that cell-surface alpha 3, alpha 6 and alpha v subunits were not processed endoproteolytically into heavy and light chains as they were in HT29-D4 cells, a furin-competent cell line. Complete removal of N-linked oligosaccharides and pulse-chase experiments confirmed that the cleavage of the alpha 6 integrin subunit occurring 45 min after translation in HT29 cells did not take place in LoVo cells. Apart from cleavage deficiency, alpha 6 subunit glycosylation, association with beta 4 subunits and targeting to the plasma membrane seemed comparable in LoVo and HT29 cells. The pro-alpha 6 and the pro-alpha 3 subunits immunopurified from LoVo cells were highly sensitive to endoproteolysis by recombinant furin. Furin cleavage was calcium dependent and resulted in the conversion of the 140 kDa pro-alpha 6 into a 120 kDa heavy chain. These results suggest strongly that furin is involved in the endoproteolytic processing of cleavable integrin alpha subunits.

Chloride channel blockers inhibit the Na+/I- symporter in thyroid follicles in culture.

Porcine thyroid cells in culture are able to reorganize into well-polarized follicle-like structures in the presence of cAMP analogs. These follicles exhibit on their basolateral membrane domain the Na+/I- symporter which allows iodide to accumulate in the thyrocytes. The initial rate of iodide influx through the Na+/I- symporter is inhibited up to 98% by the chloride channel blockers. 5 nitro-2(3-phenylpropylamino)benzoic acid and 3',5-Dichlorodiphenylamine-2-carboxylic acid are the most effective inhibitors, with a K0.5 value of 60 microM. This inhibition is not secondary to inhibition of chloride transport. Other chloride transporter blockers have been studied but showed lesser activities.

The effect of ibuprofen on accumulation of indium-111-labeled platelets and leukocytes in experimental myocardial infarction.

To assess the ability of ibuprofen to influence the extent of platelet aggregation and leukocyte infiltration during acute myocardial infarction, autologous indium-111 (111-In)-labeled platelets or leukocytes were injected before 60 minutes of left circumflex coronary artery (LCx) occlusion, followed by 24 hours of reperfusion in the canine heart. Myocardial infarct size, as a percent of the area at risk, was reduced in the ibuprofen-treated group (12.5 mg/kg i.v. every 4 hours beginning 30 minutes before LCx occlusion) by 40%, from 48 +/- 4% in control animals to 29 +/- 4% in ibuprofen-treated dogs (p = 0.005). Quantification of the platelet-associated 111In radioactivity in irreversibly injured myocardium indicated that ibuprofen did not alter the accumulation of platelets in infarcted myocardium. In contrast, leukocyte accumulation in infarcted tissue was reduced significantly. In tissue samples with 0.41-0.60 gram infarct, the infarcted/normal ratio of leukocyte radioactivity was 12 +/- 2 in control dogs and 4 +/- 1 in ibuprofen-treated dogs, which represents a 67% reduction in leukocyte accumulation in ibuprofen-treated compared with control dogs. Similar reductions were found in other gram-infarct-weight categories. Although both platelets and leukocytes accumulate in infarcted canine myocardium, ibuprofen may exert its beneficial effect on ischemic myocardium by suppressing the inflammatory response associated with myocardial ischemia and infarction.