Your search keyword '"Integrin beta1 physiology"' showing total 683 results

51. β1 and β4 integrins: from breast development to clinical practice.

Author

Nisticò P, Di Modugno F, Spada S, and Bissell MJ

Subjects

Animals, Breast Neoplasms drug therapy, Breast Neoplasms pathology, Cell Adhesion, Disease Progression, Drug Resistance, Neoplasm, Female, Humans, Mammary Glands, Human metabolism, Breast Neoplasms metabolism, Integrin beta1 physiology, Integrin beta4 physiology, Mammary Glands, Human growth & development

Abstract

Following a highly dynamic and complex dialogue between the epithelium and the surrounding microenvironment, the mammary gland develops into a branching structure during puberty, buds during pregnancy, forms intricate polar acini during lactation and, once the babies are weaned, remodels and involutes. At every stage of menstrual and pregnancy cycles, interactions between the cells and the extracellular matrix (ECM) and homotypic and heterotypic cell–cell interactions give rise to the architecture and function of the gland at that junction. These orchestrated programs would not be possible without the important role of the ECM receptors, integrins being the prime examples. The ECM–integrin axis regulates many crucial cellular functions including survival, migration and quiescence; the imbalance in any of these processes could contribute to oncogenesis. In this review we spotlight the involvement of two prominent integrin subunits, β1 and β4 integrins, in cross-talk with tyrosine kinase receptors, and we discuss the roles of these integrin subunits in the biology of normal breast differentiation and as potential prognostic and therapeutic targets in breast cancer.

Published

2014

52. Integrin α10β1: a collagen receptor critical in skeletal development.

Author

Lundgren-Åkerlund E and Aszòdi A

Subjects

Animals, Bone Development, Chondrocytes cytology, Extremities embryology, Humans, Integrin alpha Chains chemistry, Integrin alpha Chains genetics, Integrin beta1 chemistry, Integrin alpha Chains physiology, Integrin beta1 physiology

Abstract

Integrin α10β1 is the most abundant collagen-binding integrin in cartilaginous tissues and its expression pattern is distinct from that of other collagen-binding integrins. In vitro and in vivo studies have identified integrin α10β1 as a unique phenotypic marker for chondrocyte differentiation and a crucial mediator of cell-matrix interactions required for proper cartilage development. This chapter describes the structure of the integrin subunit α10, the tissue distribution of the integrin 10β1 and updates available information regarding its regulation and ligand binding. We also summarize current information on the functional roles of α10β1 in chondrogenesis of mesenchymal stem cells and in skeletal growth.

Published

2014

53. Microtubule Actin Cross-linking Factor 1 regulates cardiomyocyte microtubule distribution and adaptation to hemodynamic overload.

Author

Fassett JT, Xu X, Kwak D, Wang H, Liu X, Hu X, Bache RJ, and Chen Y

Subjects

Animals, Base Sequence, Caveolin 3 physiology, DNA Primers, Echocardiography, Integrin beta1 physiology, Lung physiopathology, Mice, Mice, Inbred C57BL, Mice, Knockout, Protein Kinase C-alpha physiology, Rats, Rats, Sprague-Dawley, Real-Time Polymerase Chain Reaction, Ventricular Dysfunction, Left, Adaptation, Physiological, Hemodynamics, Microfilament Proteins physiology, Microtubules physiology, Myocytes, Cardiac physiology

Abstract

Aberrant cardiomyocyte microtubule growth is a feature of pressure overload induced cardiac hypertrophy believed to contribute to left ventricular (LV) dysfunction. Microtubule Actin Cross-linking Factor 1 (MACF1/Acf7) is a 600 kd spectraplakin that stabilizes and guides microtubule growth along actin filaments. MACF1 is expressed in the heart, but its impact on cardiac microtubules, and how this influences cardiac structure, function, and adaptation to hemodynamic overload is unknown. Here we used inducible cardiac-specific MACF1 knockout mice (MACF1 KO) to determine the impact of MACF1 on cardiac microtubules and adaptation to pressure overload (transverse aortic constriction (TAC).In adult mouse hearts, MACF1 expression was low under basal conditions, but increased significantly in response to TAC. While MACF1 KO had no observable effect on heart size or function under basal conditions, MACF1 KO exacerbated TAC induced LV hypertrophy, LV dilation and contractile dysfunction. Interestingly, subcellular fractionation of ventricular lysates revealed that MACF1 KO altered microtubule distribution in response to TAC, so that more tubulin was associated with the cell membrane fraction. Moreover, TAC induced microtubule redistribution into this cell membrane fraction in both WT and MACF1 KO mice correlated strikingly with the level of contractile dysfunction (r(2) = 0.786, p<.001). MACF1 disruption also resulted in reduction of membrane caveolin 3 levels, and increased levels of membrane PKCα and β1 integrin after TAC, suggesting MACF1 function is important for spatial regulation of several physiologically relevant signaling proteins during hypertrophy. Together, these data identify for the first time, a role for MACF1 in cardiomyocyte microtubule distribution and in adaptation to hemodynamic overload.

Published

2013

54. Kindlin-2 mediates activation of TGF-β/Smad signaling and renal fibrosis.

Author

Wei X, Xia Y, Li F, Tang Y, Nie J, Liu Y, Zhou Z, Zhang H, and Hou FF

Subjects

Animals, Cells, Cultured, Cytoskeletal Proteins drug effects, Cytoskeletal Proteins genetics, Disease Models, Animal, Fibrosis, Gene Expression Regulation drug effects, Humans, Integrin beta1 physiology, Membrane Proteins drug effects, Membrane Proteins genetics, Mice, Muscle Proteins drug effects, Muscle Proteins genetics, Neoplasm Proteins drug effects, Neoplasm Proteins genetics, Protein Serine-Threonine Kinases physiology, RNA, Small Interfering pharmacology, Receptor, Transforming Growth Factor-beta Type I, Receptors, Transforming Growth Factor beta physiology, Smad3 Protein physiology, Ureteral Obstruction pathology, Ureteral Obstruction physiopathology, Cytoskeletal Proteins physiology, Kidney pathology, Kidney physiopathology, Membrane Proteins physiology, Muscle Proteins physiology, Neoplasm Proteins physiology, Signal Transduction physiology, Smad Proteins physiology, Transforming Growth Factor beta physiology

Abstract

Activation of TGF-β/Smad signaling plays a central role in the pathogenesis of tubulointerstitial fibrosis, but the mechanisms underlying the initial interaction of the TGF-β receptor with Smads, leading to their activation, remain unclear. Here, we found that Kindlin-2, an integrin-binding protein, physically mediated the interaction of the TGF-β type I receptor (TβRI) with Smad3 in human kidney tubular epithelial cells. Kindlin-2 bound to TβRI through its FERM domain and to Smad3 through its N terminus. Overexpression of Kindlin-2 increased TGF-β-induced Smad3 activation. Knockdown of Kindlin-2 significantly suppressed the engagement of TβRI with Smad3 and inhibited TGF-β-induced Smad3 activation, as well as the expression of its target genes. Neither transfection of a Kindlin-2 mutant incapable of binding to β1 integrin nor knockdown of β1 integrin influenced the effect of Kindlin-2 on TGF-β1-induced Smad3 activation, indicating that this effect is independent of integrin. Kindlin-2 expression was markedly increased, predominantly in renal tubular epithelial cells, both in the unilateral ureteral obstruction model of kidney fibrosis and in human tissue exhibiting tubulointerstitial fibrosis. Furthermore, in the unilateral ureteral obstruction model, knocking down Kindlin-2 significantly inhibited activation of TGF-β/Smad signaling, decreased the expression of matrix genes, and ameliorated fibrosis. In summary, Kindlin-2 physically interacts with both TβRI and Smad3, promoting the activation of TGF-β/Smad signaling and contributing to the pathogenesis of tubulointerstitial fibrosis. Blockade of Kindlin-2 might be a rational therapeutic strategy for the treatment of fibrotic kidney diseases.

Published

2013

55. Matrix-specified differentiation of human decidua parietalis placental stem cells.

Author

Sridharan I, Kim T, Strakova Z, and Wang R

Subjects

Cell Enlargement, Cell Lineage physiology, Cells, Cultured, Collagen Type I physiology, Female, Humans, Integrin beta1 physiology, Microscopy, Atomic Force, Nanotubes, Carbon, Neurons cytology, Cell Differentiation physiology, Decidua cytology, Embryonic Stem Cells cytology, Extracellular Matrix physiology

Abstract

To create suitable biological scaffolds for tissue engineering and cell therapeutics, it is essential to understand the matrix-mediated specification of stem cell differentiation. To this end, we studied the effect of collagen type I on stem cell lineage specification. We altered the properties of collagen type I by incorporating carbon nanotubes (CNT). The collagen-CNT composite material was stiffer with thicker fibers and longer D-period. Human decidua parietalis stem cells (hdpPSC) were found to differentiate exclusively and rapidly towards neural cells on the collagen-CNT matrix. We attribute this accelerated neural differentiation to the enhanced structural and mechanical properties of collagen-CNT material. Strikingly, the collagen-CNT matrix, unlike collagen, imposes the neural fate by an alternate mechanism that may be independent of beta-1 integrin and beta-catenin. The study demonstrates the sensitivity of stem cells to subtle changes in the matrix and the utilization of a novel biocomposite material for efficient and directed differentiation of stem cells., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

56. Suppression of actopaxin impairs hepatocellular carcinoma metastasis through modulation of cell migration and invasion.

Author

Ng L, Tung-Ping Poon R, Yau S, Chow A, Lam C, Li HS, Chung-Cheung Yau T, Law WL, and Pang R

Subjects

Animals, Antineoplastic Agents pharmacology, Apoptosis drug effects, Carcinoma, Hepatocellular mortality, Cell Line, Tumor, Cells, Cultured, Disease Models, Animal, Disease Progression, Epithelial-Mesenchymal Transition physiology, Female, Heterografts, Humans, In Vitro Techniques, Integrin beta1 physiology, Liver Neoplasms mortality, Male, Mice, Mice, Inbred NOD, Mice, SCID, Microfilament Proteins drug effects, Microfilament Proteins physiology, Middle Aged, Neoplasm Invasiveness pathology, Neoplasm Invasiveness physiopathology, Neoplasm Metastasis pathology, Organoplatinum Compounds pharmacology, Oxaliplatin, RNA, Small Interfering pharmacology, Survival Rate, Carcinoma, Hepatocellular pathology, Carcinoma, Hepatocellular physiopathology, Cell Movement physiology, Liver Neoplasms pathology, Liver Neoplasms physiopathology, Microfilament Proteins antagonists & inhibitors, Neoplasm Metastasis physiopathology

Abstract

Unlabelled: Early reports suggested that actopaxin, a member of the focal adhesion proteins, regulates cell migration. Here we investigated whether actopaxin is involved in hepatocellular carcinoma (HCC) progression and metastasis. We examined actopaxin expression in human HCC samples using immunohistochemistry and western blotting. The functional and molecular effect of actopaxin was studied in vitro by overexpression in a nonmetastatic HCC cell line, as well as repression in a metastatic cell line. The in vivo effect of actopaxin repression was studied in nonobese diabetic and severe combined immunodeficient mice. We found that actopaxin was frequently overexpressed in human HCC patients and its overexpression positively correlated with tumor size, stage, and metastasis. Actopaxin expression also correlated with the metastatic potential of HCC cell lines. Actopaxin overexpression induced the invasion and migration ability of nonmetastatic HCC cells, whereas down-regulation of actopaxin reverted the invasive phenotypes and metastatic potential of metastatic HCC cells through regulating the protein expression of certain focal adhesion proteins including ILK, PINCH, paxillin, and cdc42, as well as regulating the epithelial-mesenchymal transition pathway. Furthermore, there was a close association between actopaxin and CD29. HCC cells with stronger CD29 expression showed a higher actopaxin level, whereas actopaxin repression attenuated CD29 activity. Finally, actopaxin down-regulation enhanced the chemosensitivity of HCC cells towards oxaliplatin treatment by way of a collective result of suppression of survivin protein, β-catenin, and mammalian target of rapamycin pathways and up-regulation of p53., Conclusion: This study provides concrete evidence of a significant role of actopaxin in HCC progression and metastasis, by way of regulation of cell invasiveness and motility, an epithelial-mesenchymal transition process, and chemosensitivity to cytotoxic drugs., (Copyright © 2013 by the American Association for the Study of Liver Diseases.)

Published

2013

57. Integrin β1 is critical for gastrin-releasing peptide receptor-mediated neuroblastoma cell migration and invasion.

Author

Lee S, Qiao J, Paul P, and Chung DH

Subjects

Cell Line, Tumor, Gastrin-Releasing Peptide pharmacology, Humans, Integrin alpha2 analysis, Integrin alpha3 analysis, Neoplasm Invasiveness, Cell Movement, Integrin beta1 physiology, Neuroblastoma pathology, Receptors, Bombesin physiology

Abstract

Background: Gastrin-releasing peptide (GRP) and its receptor, GRP-R, are critically involved in neuroblastoma tumorigenesis; however, the molecular mechanisms and signaling pathways that are responsible for GRP/GRP-R-induced cell migration and invasion remain unclear. In this study, we sought to determine the cell signals involved in GRP/GRP-R-mediated neuroblastoma cell migration and invasion., Methods: Human neuroblastoma cell lines SK-N-SH, LAN-1, and IMR-32 were used for our study. Transwell migration and invasion assays were performed after GRP (10(-7) M) stimulation. The cDNA GEArray Microarray kit was used to determine GRP-R-induced gene expression changes. Protein and membrane expression of integrin subunits were confirmed by Western blotting and flow cytometry analysis. siRNA transfection was performed using Lipofectamine 2000. For scratch assay, a confluent monolayer of cells in 6-well plates were wounded with micropipette tip and observed microscopically at 24 to 72 h., Results: GRP increased neuroblastoma cell migration and expressions of MMP-2 whereas the TIMP-1 level decreased. GRP-R overexpression stimulated SK-N-SH cell migration and upregulated integrin α2, α3, and β1 protein as well as mRNA expression. Targeted silencing of integrin β1 inhibited cell migration., Conclusion: GRP/GRP-R signaling contributes to neuroblastoma cell migration and invasion. Moreover, the integrin ß1 subunit critically regulates GRP-R-mediated neuroblastoma cell migration and invasion., (Copyright © 2013 Mosby, Inc. All rights reserved.)

Published

2013

58. Alternatively spliced tissue factor promotes breast cancer growth in a β1 integrin-dependent manner.

Author

Kocatürk B, Van den Berg YW, Tieken C, Mieog JS, de Kruijf EM, Engels CC, van der Ent MA, Kuppen PJ, Van de Velde CJ, Ruf W, Reitsma PH, Osanto S, Liefers GJ, Bogdanov VY, and Versteeg HH

Subjects

Adult, Animals, Breast Neoplasms genetics, Cell Line, Tumor, Cell Proliferation, Female, Humans, Mice, Middle Aged, Thromboplastin genetics, Alternative Splicing, Breast Neoplasms pathology, Integrin beta1 physiology, Thromboplastin physiology

Abstract

Full-length tissue factor (flTF), the coagulation initiator, is overexpressed in breast cancer (BrCa), but associations between flTF expression and clinical outcome remain controversial. It is currently not known whether the soluble alternatively spliced TF form (asTF) is expressed in BrCa or impacts BrCa progression. We are unique in reporting that asTF, but not flTF, strongly associates with both tumor size and grade, and induces BrCa cell proliferation by binding to β1 integrins. asTF promotes oncogenic gene expression, anchorage-independent growth, and strongly up-regulates tumor expansion in a luminal BrCa model. In basal BrCa cells that constitutively express both TF isoforms, asTF blockade reduces tumor growth and proliferation in vivo. We propose that asTF plays a major role in BrCa progression acting as an autocrine factor that promotes tumor progression. Targeting asTF may comprise a previously unexplored therapeutic strategy in BrCa that stems tumor growth, yet does not impair normal hemostasis.

Published

2013

59. Radiation-induced myosin IIA expression stimulates collagen type I matrix reorganization.

Author

Blockhuys S, Van Rompaye B, De Rycke R, Lambein K, Claes K, Bracke M, De Wagter C, and De Wever O

Subjects

Actomyosin physiology, Breast Neoplasms metabolism, Breast Neoplasms pathology, Female, Focal Adhesion Protein-Tyrosine Kinases physiology, Humans, Integrin beta1 physiology, MCF-7 Cells, Breast Neoplasms radiotherapy, Collagen Type I chemistry, Nonmuscle Myosin Type IIA physiology

Abstract

Background and Purpose: Extracellular matrix (ECM) reorganization critically contributes to breast cancer (BC) progression and radiotherapy response. We investigated the molecular background and functional consequences of collagen type I (col-I) reorganization by irradiated breast cancer cells (BCC)., Materials and Methods: Radiation-induced (RI) col-I reorganization was evaluated for MCF-7/6, MCF-7/AZ, T47D and SK-BR-3 BCC. Phase-contrast microscopy and a stressed matrix contraction assay were used for visualization and quantification of col-I reorganization. Cell-matrix interactions were assessed by the inhibition of β1 integrin (neutralizing antibody 'P5D2') or focal adhesion kinase (FAK; GSK22560098 small molecule kinase inhibitor). The role of the actomyosin cytoskeleton was explored by western blotting analysis of myosin II expression and activity; and by gene silencing of myosin IIA and pharmacological inhibition of the actomyosin system (blebbistatin, cytochalasin D). BCC death was evaluated by propidium iodide staining., Results: We observed a radiation dose-dependent increase of col-I reorganization by BCC. β1 Integrin/FAK-mediated cell-matrix interactions are essential for RI col-I reorganization. Irradiated BCC are characterized by increased myosin IIA expression and myosin IIA-dependent col-I reorganization. Moreover, RI col-I reorganization by BCC is associated with decreased BCC death, as suggested by pharmacological targeting of the β1 integrin/FAK/myosin IIA pathway., Conclusions: Our data indicate the role of myosin IIA in col-I reorganization by irradiated BCC and reciprocal BCC death., (Copyright © 2013 Elsevier Ireland Ltd. All rights reserved.)

Published

2013

60. Alteration of cartilage mechanical properties in absence of β1 integrins revealed by rheometry and FRAP analyses.

Author

Bougault C, Cueru L, Bariller J, Malbouyres M, Paumier A, Aszodi A, Berthier Y, Mallein-Gerin F, and Trunfio-Sfarghiu AM

Subjects

Animals, Cartilage ultrastructure, Compressive Strength, Elasticity, Extracellular Matrix ultrastructure, Fluorescence Recovery After Photobleaching, Mice, Mice, Transgenic, Microscopy, Electron, Transmission, Cartilage physiology, Integrin beta1 physiology

Abstract

Context: Mechanical properties are essential for biological functions of the hyaline cartilage such as energy dissipation and diffusion of solutes. Mechanical properties are primarily dependent on the hierarchical organization of the two major extracellular matrix (ECM) macromolecular components of the cartilage: the fibrillar collagen network and the glycosaminoglycan (GAG)-substituted proteoglycan, mainly aggrecan, aggregates. Interaction of chondrocytes, the only cell type in the tissue, with the ECM through adhesion receptors is involved in establishing mechanical stability via bidirectional transduction of both mechanical forces and chemical signals. In this study, we aimed to determine the role of the transmembrane β1 integrin adhesion receptors in cartilage biomechanical properties by the use of genetic modification in mice., Methods: Costal cartilages of wild type and mutant mice lacking β1 integrins in chondrocytes were investigated. Cartilage compressive properties and solute diffusion were characterized by rheometric analysis and Fluorescence Recovery After Photobleaching (FRAP), respectively. Cartilage tissue sections were analyzed by histology, immunohistochemistry and transmission electron microscopy (TEM)., Results: At the histological level, the mutant costal cartilage was characterized by chondrocyte rounding and loss of tissue polarity. Immunohistochemistry and safranin orange staining demonstrated apparently normal aggrecan and GAG levels, respectively. Antibody staining for collagen II and TEM showed comparable expression and organization of the collagen fibrils between mutant and control cartilages. Despite the lack of gross histological and ultrastructural abnormalities, rheological measurements revealed that the peak elastic modulus in compression of mutant cartilage was 1.6-fold higher than the peak elastic modulus of wild-type sample. Interestingly, the diffusion coefficient within the mutant cartilage tissue was found to be 1.2-fold lower in the extracellular space and 14-fold lower in the pericellular (PCM) space compared to control., Conclusion: The results demonstrate that the absence of β1 integrins on the surface of chondrocytes increases the stiffness and modifies the diffusion properties of costal cartilage. Our data imply that β1 integrins-mediated chondrocyte-matrix interactions directly affect cartilage biomechanics probably by modifying physical properties of individual cells. This study thus highlights the crucial role of β1 integrins in the cartilage function., (Copyright © 2013. Published by Elsevier Ltd.)

Published

2013

61. β1 integrin targeting potentiates antiangiogenic therapy and inhibits the growth of bevacizumab-resistant glioblastoma.

Author

Carbonell WS, DeLay M, Jahangiri A, Park CC, and Aghi MK

Subjects

Animals, Bevacizumab, Brain Neoplasms pathology, Cell Hypoxia, Cell Line, Tumor, Cell Proliferation drug effects, Drug Synergism, Female, Glioblastoma pathology, Humans, Mice, Spheroids, Cellular drug effects, Tumor Microenvironment drug effects, Angiogenesis Inhibitors therapeutic use, Antibodies, Monoclonal, Humanized therapeutic use, Brain Neoplasms drug therapy, Glioblastoma drug therapy, Integrin beta1 physiology

Abstract

Antiangiogenic therapies like bevacizumab offer promise for cancer treatment, but acquired resistance, which often includes an aggressive mesenchymal phenotype, can limit the use of these agents. Upregulation of β1 integrin (ITGB1) occurs in some bevacizumab-resistant glioblastomas (BRG) whereby, mediating tumor-microenvironment interactions, we hypothesized that it may mediate a mesenchymal-type resistance to antiangiogenic therapy. Immunostaining analyses of β1 integrin and its downstream effector kinase FAK revealed upregulation in 75% and 86% of BRGs, respectively, compared with pretreatment paired specimens. Furthermore, flow cytometry revealed eight-fold more β1 integrin in primary BRG cells compared with cells from bevacizumab-naïve glioblastomas (BNG). Fluorescence recovery after photobleaching of cells engineered to express a β1-GFP fusion protein indicated that the mobile β1 integrin fraction was doubled, and half-life of β1 integrin turnover in focal adhesions was reduced markedly in BRG cells compared with bevacizumab-responsive glioblastoma multiforme cells. Hypoxia, which was increased with acquisition of bevacizumab resistance, was associated with increased β1 integrin expression in cultured BNG cells. BRGs displayed an aggressive mesenchymal-like phenotype in vitro. We found that growth of BRG xenograft tumors was attenuated by the β1 antibody, OS2966, allowing a 20-fold dose reduction of bevacizumab per cycle in this model. Intracranial delivery of OS2966 through osmotic pumps over 28 days increased tumor cell apoptosis, decreased tumor cell invasiveness, and blunted the mesenchymal morphology of tumor cells. We concluded that β1 integrin upregulation in BRGs likely reflects an onset of hypoxia caused by antiangiogenic therapy, and that β1 inhibition is well tolerated in vivo as a tractable strategy to disrupt resistance to this therapy., (©2013 AACR.)

Published

2013

62. Trop-2 promotes prostate cancer metastasis by modulating β(1) integrin functions.

Author

Trerotola M, Jernigan DL, Liu Q, Siddiqui J, Fatatis A, and Languino LR

Subjects

Animals, Cell Line, Tumor, Cell Movement, Humans, Male, Mice, Neoplasm Metastasis, Protein Multimerization, Receptors, Vitronectin physiology, Antigens, Neoplasm physiology, Cell Adhesion Molecules physiology, Integrin beta1 physiology, Prostatic Neoplasms pathology

Abstract

The molecular mechanisms underlying metastatic dissemination are still not completely understood. We have recently shown that β(1) integrin-dependent cell adhesion to fibronectin and signaling is affected by a transmembrane molecule, Trop-2, which is frequently upregulated in human carcinomas. Here, we report that Trop-2 promotes metastatic dissemination of prostate cancer cells in vivo and is abundantly expressed in metastasis from human prostate cancer. We also show here that Trop-2 promotes prostate cancer cell migration on fibronectin, a phenomenon dependent on β(1) integrins. Mechanistically, we demonstrate that Trop-2 and the α(5)β(1) integrin associate through their extracellular domains, causing relocalization of α(5)β(1) and the β(1)-associated molecule talin from focal adhesions to the leading edges. Trop-2 effect is specific as this molecule does not modulate migration on vitronectin, does not associate with the major vitronectin receptor, α(v)β(3) integrin, and does not affect localization of α(v)β(3) integrin as well as vinculin in focal adhesions. We show that Trop-2 enhances directional prostate cancer cell migration, through modulation of Rac1 GTPase activity. Finally, we show that Trop-2 induces activation of PAK4, a kinase that has been reported to mediate cancer cell migration. In conclusion, we provide the first evidence that β(1) integrin-dependent migratory and metastatic competence of prostate cancer cells is enhanced by Trop-2., (©2013 AACR.)

Published

2013

63. Integrins regulate centrosome integrity and astrocyte polarization following a wound.

Author

Peng H, Ong YM, Shah WA, Holland PC, and Carbonetto S

Subjects

Animals, Cell Adhesion, Cell Cycle Proteins antagonists & inhibitors, Cell Cycle Proteins genetics, Cell Polarity, Cells, Cultured physiology, Chick Embryo, DNA, Complementary genetics, Extracellular Matrix physiology, Heterocyclic Compounds, 4 or More Rings pharmacology, Humans, Integrin beta1 biosynthesis, Integrin beta1 genetics, Mice, Nonmuscle Myosin Type IIB antagonists & inhibitors, Nonmuscle Myosin Type IIB physiology, Protein-Tyrosine Kinases metabolism, RNA, Small Interfering pharmacology, Rats, Rats, Sprague-Dawley, Recombinant Fusion Proteins physiology, Retina cytology, Retina embryology, Suspensions, Astrocytes ultrastructure, Centrosome ultrastructure, Integrin beta1 physiology, Wound Healing physiology

Abstract

In response to a wound, astrocytes in culture extend microtubule-rich processes and polarize, orienting their centrosomes and Golgi apparatus woundside. β1 Integrin null astrocytes fail to extend processes toward the wound, and are disoriented, and often migrate away orthogonal, to the wound. The centrosome is unusually fragmented in β1 integrin null astrocytes. Expression of a β1 integrin cDNA in the null background yields cells with intact centrosomes that polarize and extend processes normally. Fragmented centrosomes rapidly assemble following integrin ligation and cell attachment. However, several experiments indicated that cell adhesion is not necessary. For example, astrocytes in suspension expressing a chimeric β1 subunit that can be activated by an antibody assemble centrosomes suggesting that β1 activation is sufficient to cause centrosome assembly in the absence of cell adhesion. siRNA knockdown of PCM1, a major centrosomal protein, inhibits cell polarization, consistent with the notion that centrosomes are necessary for polarity and that integrins regulate polarity via centrosome integrity. Screening inhibitors of molecules downstream of integrins indicate that neither FAK nor ILK is involved in regulation of centrosome integrity. In contrast, blebbistatin, a specific inhibitor of non-muscle myosin II (NMII), mimics the response of β1 integrin null astrocytes by disrupting centrosome integrity and cell polarization. Blebbistatin also inhibits integrin-mediated centrosome assembly in astrocytes attaching to fibronectin, consistent with the hypothesis that NMII functions downstream of integrins in regulating centrosome integrity., (Copyright © 2012 Wiley Periodicals, Inc.)

Published

2013

64. Cyr61, a matricellular protein, is needed for dendritic arborization of hippocampal neurons.

Author

Malik AR, Urbanska M, Gozdz A, Swiech LJ, Nagalski A, Perycz M, Blazejczyk M, and Jaworski J

Subjects

Animals, Cell Shape, Cells, Cultured, Cysteine-Rich Protein 61 genetics, Cysteine-Rich Protein 61 metabolism, Extracellular Signal-Regulated MAP Kinases metabolism, Gene Expression, Gene Knockdown Techniques, Genes, Immediate-Early, Hippocampus metabolism, Insulin physiology, Integrin beta1 metabolism, Integrin beta1 physiology, Phosphatidylinositol 3-Kinases metabolism, RNA, Small Interfering genetics, Rats, Ribosomal Protein S6 Kinases genetics, Ribosomal Protein S6 Kinases metabolism, Signal Transduction, TOR Serine-Threonine Kinases metabolism, ras Proteins metabolism, ras Proteins physiology, Cysteine-Rich Protein 61 physiology, Dendrites physiology, Extracellular Matrix metabolism, Hippocampus cytology, Neurons physiology

Abstract

The shape of the dendritic arbor is one of the criteria of neuron classification and reflects functional specialization of particular classes of neurons. The development of a proper dendritic branching pattern strongly relies on interactions between the extracellular environment and intracellular processes responsible for dendrite growth and stability. We previously showed that mammalian target of rapamycin (mTOR) kinase is crucial for this process. In this work, we performed a screen for modifiers of dendritic growth in hippocampal neurons, the expression of which is potentially regulated by mTOR. As a result, we identified Cyr61, an angiogenic factor with unknown neuronal function, as a novel regulator of dendritic growth, which controls dendritic growth in a β1-integrin-dependent manner.

Published

2013

65. Ofloxacin induces apoptosis via β1 integrin-EGFR-Rac1-Nox2 pathway in microencapsulated chondrocytes.

Author

Sheng ZG, Huang W, Liu YX, Yuan Y, and Zhu BZ

Subjects

Animals, Apoptosis drug effects, Apoptosis physiology, Cells, Cultured, Chondrocytes drug effects, Drug Compounding methods, NADPH Oxidase 2, Rabbits, Signal Transduction drug effects, Apoptosis Regulatory Proteins physiology, Chondrocytes physiology, ErbB Receptors physiology, Integrin beta1 physiology, Membrane Glycoproteins physiology, NADPH Oxidases physiology, Ofloxacin toxicity, Signal Transduction physiology, rac1 GTP-Binding Protein physiology

Abstract

Quinolones (QNs)-induced arthropathy is an important toxic side-effect in immature animals leading to the restriction of their therapeutic use in pediatrics. Ofloxacin, a typical QN, was found to induce the chondrocytes apoptosis in the early phase (12-48 h) of arthropathy in our previous study. However, the exact mechanism(s) is unclear. Microencapsulated juvenile rabbit joint chondrocytes, a three-dimensional culture system, is utilized to perform the present study. Ofloxacin, at a therapeutically relevant concentration (10 μg/ml), disturbs the interaction between β1 integrin and activated intracellular signaling proteins at 12 h, which is inhibited when supplementing Mg(2+). Intracellular reactive oxygen species (ROS) significantly increases in a time-dependent manner after exposure to ofloxacin for 12-48 h. Furthermore, ofloxacin markedly enhances the level of activated Rac1 and epidermal growth factor receptor (EGFR) phosphorylation, and its inhibition in turn reduces the ROS production, apoptosis and Rac1 activation. Silencing Nox2, Rac1 or supplementing Mg(2+) inhibits ROS accumulation, apoptosis occurrence and EGFR phosphorylation induced by ofloxacin. However, depletion of Nox2, Rac1 and inhibition of EGFR do not affect ofloxacin-mediated loss of interaction between β1 integrin and activated intracellular signaling proteins. In addition, ofloxacin also induces Vav2 phosphorylation, which is markedly suppressed after inactivating EGFR or supplementing Mg(2+). These results suggest that ofloxacin causes Nox2-mediated intracellular ROS production by disrupting the β1 integrin function and then activating the EGFR-Vav2-Rac1 pathway, finally resulting in apoptosis within 12-48 h exposure. The present study provides a novel insight regarding the potential role of Nox-driven ROS in QNs-induced arthropathy., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2013

66. Remanent cell traction force in renal vascular smooth muscle cells induced by integrin-mediated mechanotransduction.

Author

Balasubramanian L, Lo CM, Sham JS, and Yip KP

Subjects

Animals, Calcium Signaling, Cell Adhesion, Cells, Cultured, Integrin alpha5 metabolism, Integrin beta1 metabolism, Male, Rats, Rats, Sprague-Dawley, Shear Strength, Vasoconstriction, Integrin alpha5 physiology, Integrin beta1 physiology, Mechanotransduction, Cellular, Muscle, Smooth, Vascular cytology, Myocytes, Smooth Muscle physiology, Renal Artery cytology

Abstract

It was previously demonstrated in isolated renal vascular smooth muscle cells (VSMCs) that integrin-mediated mechanotransduction triggers intracellular Ca(2+) mobilization, which is the hallmark of myogenic response in VSMCs. To test directly whether integrin-mediated mechanotransduction results in the myogenic response-like behavior in renal VSMCs, cell traction force microscopy was used to monitor cell traction force when the cells were pulled with fibronectin-coated or low density lipoprotein (LDL)-coated paramagnetic beads. LDL-coated beads were used as a control for nonintegrin-mediated mechanotransduction. Pulling with LDL-coated beads increased the cell traction force by 61 ± 12% (9 cells), which returned to the prepull level after the pulling process was terminated. Pulling with noncoated beads had a minimal increase in the cell traction force (12 ± 9%, 8 cells). Pulling with fibronectin-coated beads increased the cell traction force by 56 ± 20% (7 cells). However, the cell traction force was still elevated by 23 ± 14% after the pulling process was terminated. This behavior is analogous to the changes of vascular resistance in pressure-induced myogenic response, in which vascular resistance remains elevated after myogenic constriction. Fibronectin is a native ligand for α(5)β(1)-integrins in VSMCs. Similar remanent cell traction force was found when cells were pulled with beads coated with β(1)-integrin antibody (Ha2/5). Activation of β(1)-integrin with soluble antibody also triggered variations of cell traction force and Ca(2+) mobilization, which were abolished by the Src inhibitor. In conclusion, mechanical force transduced by α(5)β(1)-integrins triggered a myogenic response-like behavior in isolated renal VSMCs.

Published

2013

67. Canine intra-articular multipotent stromal cells (MSC) from adipose tissue have the highest in vitro expansion rates, multipotentiality, and MSC immunophenotypes.

Author

Zhang N, Dietrich MA, and Lopez MJ

Subjects

Animals, Anterior Cruciate Ligament cytology, Antigens, CD immunology, Antigens, CD34 physiology, Cell Count veterinary, Cell Division physiology, Dogs, Female, Hyaluronan Receptors physiology, Immunophenotyping veterinary, Integrin beta1 physiology, Leukocyte Common Antigens physiology, Multipotent Stem Cells cytology, Multipotent Stem Cells immunology, Stifle cytology, Stromal Cells immunology, Stromal Cells physiology, Thy-1 Antigens physiology, Adipose Tissue cytology, Antigens, CD physiology, Multipotent Stem Cells physiology, Stromal Cells cytology

Abstract

Objective: To identify the optimum intra-articular multipotent stromal cell (MSC) tissue source in the canine stifle., Study Design: Experimental., Sample Population: Infrapatellar adipose tissue, synovium lining the joint capsule, and synovium surrounding the cranial cruciate ligament (CrCL) from normal stifles of 6 dogs., Methods: Nucleated cell density for each tissue was determined, and cell doublings (CD) and doubling times (DT) were quantified for expansion rates. Adipogenic, osteogenic, and chondrogenic differentiation was confirmed with light microscopy. Fibroblastic, adipogenic, and osteogenic colony forming unit frequencies were determined for multipotentiality. Tissue-specific target gene expression was assessed, and percentages of CD29(+) , CD34(+) , CD44(+) , CD45(+) , and CD90(+) cells quantified., Results: Adipose tissue had the highest MSC density (ASC). The CD decreased with increasing passages for all cell types, and ASC values tended to be higher. Multipotentiality decreased with passage, but remained highest in ASC. Tissue-specific target gene expression was higher in induced versus noninduced cells, and ASCs had the highest upregulation across passages. Most cells were CD29(+) , CD44(+) , CD90(+) , and percentages decreased with passage. Within cell types, there were more CD29(+) ASC in early passages and more CD44(+) and CD90(+) ASC in later passages., Conclusions: ASC had the highest in vitro expansion rates, CFU frequencies, tissue-specific target gene expression, and percentages of MSC immunophenotypes., (© Copyright 2013 by The American College of Veterinary Surgeons.)

Published

2013

68. Combination of MEK and SRC inhibition suppresses melanoma cell growth and invasion.

Author

Ferguson J, Arozarena I, Ehrhardt M, and Wellbrock C

Subjects

Benzimidazoles pharmacology, Benzodioxoles pharmacology, Cell Adhesion physiology, Collagen metabolism, Humans, Integrin beta1 physiology, Protein Kinase Inhibitors pharmacology, Quinazolines pharmacology, Cell Division, MAP Kinase Kinase Kinases antagonists & inhibitors, Melanoma pathology, Neoplasm Invasiveness, src-Family Kinases antagonists & inhibitors

Abstract

The RAS-RAF-MEK-ERK pathway is deregulated in over 90% of malignant melanomas, and targeting MEK as a central kinase of this pathway is currently tested in clinical trials. However, dose-limiting side effects are observed, and MEK inhibitors that sufficiently reduce ERK activation in patients show a low clinical response. Apart from dose limitations, a reason for the low response to MEK targeting drugs is thought to be the upregulation of counteracting signalling cascades as a direct response to MEK inhibition. Therefore, understanding the biology of melanoma cells and the effects of MEK inhibition on these cells will help to identify new combinatorial approaches that are more potent and allow for lower concentrations of the drug being used. We have discovered that in melanoma cells MEK inhibition by selumetinib (AZD6244, ARRY-142886) or PD184352, while efficiently suppressing proliferation, stimulates increased invasiveness. Inhibition of MEK suppresses actin-cortex contraction and increases integrin-mediated adhesion. Most importantly, and surprisingly, MEK inhibition results in a significant increase in matrix metalloproteases (MMP)-2 and membrane-type 1-MMP expression. All together, MEK inhibition in melanoma cells induces a 'mesenchymal' phenotype that is characterised by protease-driven invasion. This mode of invasion is dependent on integrin-mediated adhesion, and because SRC kinases are the main regulators of this process, the SRC kinase inhibitor, saracatinib (AZD0530), completely abolished the MEK inhibitor-induced invasion. Moreover, the combination of saracatinib and selumetinib effectively suppressed the growth and invasion of melanoma cells in a 3D environment, suggesting that combined inhibition of MEK and SRC is a promising approach to improve the efficacy of targeting the ERK/MAP kinase pathway in melanoma.

Published

2013

69. Targeting gonadotropin-releasing hormone receptor inhibits the early step of ovarian cancer metastasis by modulating tumor-mesothelial adhesion.

Author

Cheung LW, Yung S, Chan TM, Leung PC, and Wong AS

Subjects

Animals, Base Sequence, Blotting, Western, Cell Line, Tumor, DNA Primers, Female, Humans, Integrin beta1 physiology, Lentivirus genetics, Mice, Mice, Inbred BALB C, Mice, Nude, RNA, Small Interfering genetics, Real-Time Polymerase Chain Reaction, Reverse Transcriptase Polymerase Chain Reaction, Signal Transduction, Cell Adhesion, Epithelium pathology, Neoplasm Metastasis prevention & control, Ovarian Neoplasms pathology, Receptors, LHRH genetics

Abstract

Ovarian cancer has a clear predilection to metastasize to the peritoneum, which represents one of the most important prognostic factors of poor clinical outcome. Gonadotropin-releasing hormone (GnRH) receptor is significantly overexpressed during the malignant progression of human ovarian cancer. Here, using lentiviral-based small interfering RNA (siRNA) technology to downregulate GnRH receptor in metastatic ovarian cancer cells, we show that GnRH receptor is an important mediator of ovarian cancer peritoneal metastasis. GnRH receptor downregulation dramatically attenuated their adhesion to the peritoneal mesothelium. By inhibiting the expression of GnRH receptor, we showed decreased expression of α2β1 and α5β1 integrin and adhesion to specific extracellular matrix (ECM) proteins. This was also associated with a reduction of P-cadherin. Furthermore, adhesion of ovarian cancer cells to different ECMs and the mesothelium were abrogated in response to β1 integrin and P-cadherin reduction, confirming that the effects were β1 integrin- and P-cadherin-specific. Using a mouse model of human ovarian cancer metastasis, we found that the inhibition of GnRH receptor, β1 integrin, and P-cadherin significantly attenuated tumor growth, ascites formation, and the number of metastatic implants. These results define a new role for GnRH receptor in early metastasis and offer the possibility of novel therapeutic targets.

Published

2013

70. Integrin beta 1 enhances the epithelial-mesenchymal transition in association with gefitinib resistance of non-small cell lung cancer.

Author

Ju L and Zhou C

Subjects

Animals, Biomarkers, Tumor physiology, Carcinoma, Non-Small-Cell Lung drug therapy, Carcinoma, Non-Small-Cell Lung pathology, Cell Line, Tumor, Cell Proliferation, ErbB Receptors antagonists & inhibitors, ErbB Receptors metabolism, Gefitinib, Humans, Lung Neoplasms drug therapy, Lung Neoplasms pathology, Mice, Mice, Nude, Signal Transduction, Xenograft Model Antitumor Assays, Antineoplastic Agents pharmacology, Carcinoma, Non-Small-Cell Lung metabolism, Drug Resistance, Neoplasm, Epithelial-Mesenchymal Transition, Integrin beta1 physiology, Lung Neoplasms metabolism, Quinazolines pharmacology

Abstract

We have previously shown that integrinβ1 associates with gefitinib resistance. As epithelial-mesenchymal transition (EMT) also induces gefitinib resistance in vitro, we wished to determine the relation of them in gefitinib resistance. In this study, we show that integrinβ1 induced epidermal growth factor receptor (EGFR) tyrosine kinase inhibitor (TKI) resistance in xenograft tumors and gefitinib-resistant NSCLC tumors acquired EMT phenotype. Furthermore, inhibition of integrinβ1 reverses EMT, meanwhile overexpression and activation of integrinβ1 aggravates EMT. Lastly, we further identified that integrinβ1 enhanced EMT via FAK-AKT signaling pathway. These findings highlight a novel relation of integrinβ1 and EMT in EGFR TKI resistant NSCLC.

Published

2013

71. A tale of two collagen receptors, integrin β1 and discoidin domain receptor 1, in epithelial cell differentiation.

Author

Yeh YC, Lin HH, and Tang MJ

Subjects

Animals, Cadherins physiology, Collagen physiology, Discoidin Domain Receptors, Female, Fibrosis, Humans, Mesoderm physiology, Mice, Neoplasms pathology, Cell Differentiation physiology, Epithelial Cells physiology, Integrin beta1 physiology, Receptor Protein-Tyrosine Kinases physiology, Receptors, Collagen physiology, Receptors, Mitogen physiology

Abstract

As increase in collagen deposition is no longer taken as simply a consequence but, rather, an inducer of disease progression; therefore, the understanding of collagen signal transduction is fundamentally important. Cells contain at least two types of collagen receptors: integrins and discoidin domain receptors (DDRs). The integrin heterodimers α(1)β(1), α(2)β(1), α(10)β(1), and α(11)β(1) are recognized as the non-tyrosine kinase collagen receptors. DDR1 and 2, the tyrosine kinase receptors of collagen, are specifically expressed in epithelium and mesenchyme, respectively. While integrin β(1) and DDR1 are both required for cell adhesion on collagen, their roles in epithelial cell differentiation during development and disease progression seem to counteract each other, with integrin β(1) favoring epithelium mesenchyme transition (EMT) and DDR1 inducing epithelial cell differentiation. The in vitro evidence shows that the integrin β(1) and DDR1 exert opposing actions in regulation of membrane stability of E-cadherin, which itself is a critical regulator of epithelial cell differentiation. Here, we review the functional roles of integrin β(1) and DDR1 in regulation of epithelial cell differentiation during development and disease progression, and explore the underlining mechanisms regarding to the regulation of membrane stability of E-cadherin.

Published

2012

72. Suppression of β1-integrin in gonadotropin-releasing hormone cells disrupts migration and axonal extension resulting in severe reproductive alterations.

Author

Parkash J, Cimino I, Ferraris N, Casoni F, Wray S, Cappy H, Prevot V, and Giacobini P

Subjects

Animals, Cell Transplantation physiology, DNA genetics, Estrous Cycle drug effects, Female, Flow Cytometry, Genotype, Gonadotropin-Releasing Hormone genetics, Image Processing, Computer-Assisted, Immunohistochemistry, Infertility, Female physiopathology, Integrin beta1 genetics, Luteinizing Hormone physiology, Mice, Mice, Inbred C57BL, Mice, Knockout, Ovary pathology, Polymerase Chain Reaction, Sexual Maturation genetics, Sexual Maturation physiology, Axons physiology, Cell Movement physiology, Gonadotropin-Releasing Hormone physiology, Infertility, Female genetics, Integrin beta1 physiology, Neurons physiology

Abstract

Reproduction in mammals is dependent on the function of hypothalamic neurons whose axons project to the hypothalamic median eminence (ME) where they release gonadotropin-releasing hormone (GnRH) into a specialized capillary network for delivery to the anterior pituitary. These neurons originate prenatally in the nasal placode and migrate into the forebrain along the olfactory-vomeronasal nerves. The complex developmental events leading to the correct establishment of the GnRH system are tightly regulated by the specific spatiotemporal expression patterns of guidance cues and extracellular matrix molecules, the functions of which, in part, are mediated by their binding to β1-subunit-containing integrins. To determine the biological role of these cell-surface proteins in reproduction, Cre/LoxP technology was used to generate GnRH neuron-specific β1-integrin conditional KO (GnRH-Itgb1(-/-)) mice. Loss of β1-integrin signaling impaired migration of GnRH neurons, their axonal extension to the ME, timing of pubertal onset, and fertility in these mice. These results identify β1-integrin as a gene involved in normal development of the GnRH system and demonstrate a fundamental role for this protein in acquisition of normal reproductive competence in female mice.

Published

2012

73. Three-dimensional invasion of human glioblastoma cells remains unchanged by X-ray and carbon ion irradiation in vitro.

Author

Eke I, Storch K, Kästner I, Vehlow A, Faethe C, Mueller-Klieser W, Taucher-Scholz G, Temme A, Schackert G, and Cordes N

Subjects

Brain Neoplasms genetics, Brain Neoplasms metabolism, Bromodeoxyuridine analysis, Carbon, Cell Migration Assays methods, Cell Proliferation radiation effects, Collagen Type I, DNA Breaks, Double-Stranded, Glioblastoma genetics, Glioblastoma metabolism, Histones analysis, Humans, Integrin beta1 physiology, Intracellular Signaling Peptides and Proteins analysis, MAP Kinase Kinase 4 physiology, Phosphatidylinositol 3-Kinases physiology, Tumor Suppressor p53-Binding Protein 1, p38 Mitogen-Activated Protein Kinases physiology, Brain Neoplasms pathology, Brain Neoplasms radiotherapy, Cell Movement radiation effects, Glioblastoma pathology, Glioblastoma radiotherapy, Neoplasm Invasiveness

Abstract

Purpose: Cell invasion represents one of the major determinants that treatment has failed for patients suffering from glioblastoma. Contrary findings have been reported for cell migration upon exposure to ionizing radiation. Here, the migration and invasion capability of glioblastoma cells on and in collagen type I were evaluated upon irradiation with X-rays or carbon ions., Methods and Materials: Migration on and invasion in collagen type I were evaluated in four established human glioblastoma cell lines exposed to either X-rays or carbon ions. Furthermore, clonogenic radiation survival, proliferation (5-bromo-2-deoxyuridine positivity), DNA double-strand breaks (γH2AX/53BP1-positive foci), and expression of invasion-relevant proteins (eg, β1 integrin, FAK, MMP2, and MMP9) were explored. Migration and invasion assays for primary glioblastoma cells also were carried out with X-ray irradiation., Results: Neither X-ray nor carbon ion irradiation affected glioblastoma cell migration and invasion, a finding similarly observed in primary glioblastoma cells. Intriguingly, irradiated cells migrated unhampered, despite DNA double-strand breaks and reduced proliferation. Clonogenic radiation survival was increased when cells had contact with extracellular matrix. Specific inhibition of the β1 integrin or proliferation-associated signaling molecules revealed a critical function of JNK, PI3K, and p38 MAPK in glioblastoma cell invasion., Conclusions: These findings indicate that X-rays and carbon ion irradiation effectively reduce proliferation and clonogenic survival without modifying the migration and invasion ability of glioblastoma cells in a collagen type I environment. Addition of targeted agents against members of the MAPK and PI3K signaling axis to conventional chemoradiation therapy seems potentially useful to optimize glioblastoma therapy., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

74. An angiogenic role for the α5β1 integrin in promoting endothelial cell proliferation during cerebral hypoxia.

Author

Li L, Welser-Alves J, van der Flier A, Boroujerdi A, Hynes RO, and Milner R

Subjects

Animals, Cells, Cultured, Hypoxia, Brain genetics, Hypoxia, Brain pathology, Integrin alpha5 biosynthesis, Integrin alpha5 genetics, Mice, Mice, Inbred C57BL, Mice, Knockout, Mice, Transgenic, Neovascularization, Pathologic genetics, Cell Proliferation, Endothelium, Vascular metabolism, Endothelium, Vascular pathology, Hypoxia, Brain etiology, Integrin alpha5 physiology, Integrin beta1 physiology, Neovascularization, Pathologic etiology, Neovascularization, Pathologic pathology

Abstract

Fibronectin is a critical regulator of vascular modelling, both in development and in the adult. In the hypoxic adult central nervous system (CNS), fibronectin is induced on angiogenic vessels, and endothelial cells show strong induction of the two fibronectin receptors α5β1 and αvβ3 integrins. In a previous study, we found that the αvβ3 integrin is dispensable for hypoxic-induced cerebral angiogenesis, but a role for the endothelial α5β1 integrin was suggested. To directly investigate the role of endothelial α5 integrin in cerebral angiogenesis, wild-type mice and mice lacking α5 integrin expression in endothelial cells (α5-EC-KO) were subject to hypoxia (8% O(2)) for 0, 2, 4, 7 or 14 days. Quantification of cerebral vessel density and endothelial-specific proteins claudin-5 and Glut-1 revealed that α5-EC-KO mice displayed an attenuated angiogenic response, which correlated with delayed endothelial proliferation. α5-EC-KO mice showed no defect in the ability to organize a cerebrovascular fibronectin matrix, and no compensatory increase in vascular αvβ3 integrin expression. Consistent with these findings, primary α5KO brain endothelial cells (BEC) in culture exhibited delayed growth and proliferation. Taken together, these studies demonstrate an important angiogenic role for the α5β1 integrin in promoting BEC proliferation in response to cerebral hypoxia., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

75. Chronic cerebral hypoxia promotes arteriogenic remodeling events that can be identified by reduced endoglin (CD105) expression and a switch in β1 integrins.

Author

Boroujerdi A, Welser-Alves JV, Tigges U, and Milner R

Subjects

Actins biosynthesis, Animals, Brain Ischemia metabolism, Brain Ischemia pathology, Cells, Cultured, Chronic Disease, Endoglin, Endothelial Cells metabolism, Flow Cytometry, Image Processing, Computer-Assisted, Immunohistochemistry, Integrin alpha5beta1 metabolism, Integrin alpha6beta1 metabolism, Integrin beta1 genetics, Integrin beta1 physiology, Intracellular Signaling Peptides and Proteins genetics, Intracellular Signaling Peptides and Proteins physiology, Magnetic Resonance Imaging, Mice, Mice, Inbred C57BL, Muscle, Smooth, Vascular metabolism, Transforming Growth Factor beta1 pharmacology, Cerebral Arteries pathology, Hypoxia, Brain metabolism, Integrin beta1 biosynthesis, Intracellular Signaling Peptides and Proteins metabolism, Neovascularization, Physiologic physiology

Abstract

Chronic cerebral hypoxia leads to a strong vascular remodeling response, though little is known about which part of the vascular tree is modified, or whether this response includes formation of new arterial vessels. In this study, we examined this process in detail, analyzing how hypoxia (8% O(2) for 14 days) alters the size distribution of vessels, number of arteries/arterioles, and expression pattern of endoglin (CD105), a marker of angiogenic endothelial cells in tumors. We found that cerebral hypoxia promoted the biggest increase in the number of medium to large size vessels, and this correlated with increased numbers of alpha smooth muscle actin (α-SMA)-positive arterial vessels. Surprisingly, hypoxia induced a marked reduction in CD105 expression on brain endothelial cells (BECs) within remodeling arterial vessels, and these BECs also displayed an angiogenic switch in β1 integrins (from α6 to α5), previously described for developmental angiogenesis. In vitro, transforming growth factor (TGF)-β1 also promoted this switch of BEC β1 integrins. Together, these results show that cerebral hypoxia promotes arteriogenesis, and identify reduced CD105 expression as a novel marker of arteriogenesis. Furthermore, our data suggest a mechanistic model whereby BECs in remodeling arterial vessels downregulate CD105 expression, which alters TGF-β1 signaling, to promote a switch in β1 integrins and arteriogenic remodeling.

Published

2012

76. Human mesenchymal stem cells are recruited to injured liver in a β1-integrin and CD44 dependent manner.

Author

Aldridge V, Garg A, Davies N, Bartlett DC, Youster J, Beard H, Kavanagh DP, Kalia N, Frampton J, Lalor PF, and Newsome PN

Subjects

Animals, Humans, Mice, Mice, Inbred C57BL, Cell Movement, Hyaluronan Receptors physiology, Integrin beta1 physiology, Liver injuries, Liver pathology, Mesenchymal Stem Cells physiology

Abstract

Unlabelled: Human bone marrow mesenchymal stem cells (hMSCs) have shown benefit in clinical trials of patients with liver disease. Efficient delivery of cells to target organs is critical to improving their effectiveness. This requires an understanding of the mechanisms governing cellular engraftment into the liver. Binding of hMSCs to normal/injured liver tissue, purified extracellular matrices, and human hepatic sinusoidal endothelial cells (HSECs) were quantified in static and flow conditions. To define the mechanisms underpinning hMSC interactions, neutralizing adhesion molecule antibodies were used. Fluorescently labelled hMSCs were infused intraportally into CCl(4) -injured mice with and without neutralizing antibodies. hMSCs expressed high levels of CD29/β1-integrin and CD44. Using liver tissue binding assays, hMSC adhesion was greatest in diseased human liver versus normal liver (32.2 cells/field versus 20.5 cells/field [P = 0.048]). Neutralizing antibodies against CD29 and CD44 reduced hMSC binding to diseased liver by 34% and 35%, respectively (P = 0.05). hMSCs rolled at 528 μm/second on HSECs in flow assays. This rolling was abolished by CD29 blockade on hMSCs and vascular cell adhesion molecule-1 (VCAM-1) blockade on HSECs. Firm adhesion to HSECs was reduced by CD29 (55% [P = 0.002]) and CD44 (51% [P = 0.04]) blockade. Neutralizing antibodies to CD29 and CD44 reduced hepatic engraftment of hMSCs in murine liver from 4.45 cells/field to 2.88 cells/field (P = 0.025) and 2.35 cells/field (P = 0.03), respectively. hMSCs expressed modest levels of chemokine receptors including CCR4, CCR5, and CXCR3, but these made little contribution to hMSC adhesion in this setting., Conclusion: hMSCs bind preferentially to injured liver. Rolling of hMSCs is regulated by CD29/VCAM-1, whereas CD29/CD44 interactions with VCAM-1, fibronectin, and hyaluronan on HSECs determine firm adhesion both in vitro and in vivo as demonstrated using a murine model of liver injury., (Copyright © 2012 American Association for the Study of Liver Diseases.)

Published

2012

77. Aquaporin 2 promotes cell migration and epithelial morphogenesis.

Author

Chen Y, Rice W, Gu Z, Li J, Huang J, Brenner MB, Van Hoek A, Xiong J, Gundersen GG, Norman JC, Hsu VW, Fenton RA, Brown D, and Lu HA

Subjects

Animals, Aquaporin 2 deficiency, Aquaporin 2 genetics, Cell Line, Cell Membrane Permeability physiology, Dogs, Endocytosis physiology, Epithelial Cells physiology, In Vitro Techniques, Integrin beta1 physiology, Kidney growth & development, Kidney physiology, Mice, Mice, Knockout, Models, Animal, Mutation genetics, Oligopeptides genetics, Oligopeptides physiology, Swine, Transfection, Aquaporin 2 physiology, Cell Movement physiology, Epithelial Cells cytology, Kidney cytology, Morphogenesis physiology

Abstract

The aquaporin 2 (AQP2) water channel, expressed in kidney collecting ducts, contributes critically to water homeostasis in mammals. Animals lacking or having significantly reduced levels of AQP2, however, have not only urinary concentrating abnormalities but also renal tubular defects that lead to neonatal mortality from renal failure. Here, we show that AQP2 is not only a water channel but also an integrin-binding membrane protein that promotes cell migration and epithelial morphogenesis. AQP2 expression modulates the trafficking and internalization of integrin β1, facilitating its turnover at focal adhesions. In vitro, disturbing the interaction between AQP2 and integrin β1 by mutating the RGD motif led to reduced endocytosis, retention of integrin β1 at the cell surface, and defective cell migration and tubulogenesis. Similarly, in vivo, AQP2-null mice exhibited significant retention of integrin β1 at the basolateral membrane and had tubular abnormalities. In summary, these data suggest that the water channel AQP2 interacts with integrins to promote renal epithelial cell migration, contributing to the structural and functional integrity of the mammalian kidney.

Published

2012

78. Role of β1 integrin in tissue homing of neutrophils during sepsis.

Author

Sarangi PP, Hyun YM, Lerman YV, Pietropaoli AP, and Kim M

Subjects

Animals, Anti-Infective Agents administration & dosage, Anti-Infective Agents pharmacology, Cell Movement physiology, Humans, Ligation, Lipopolysaccharides toxicity, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Multiple Organ Failure etiology, Neutrophil Infiltration physiology, Oligopeptides administration & dosage, Oligopeptides pharmacology, Up-Regulation, CD18 Antigens physiology, Integrin beta1 physiology, Neutrophils physiology, Sepsis etiology

Abstract

Aberrant activation of neutrophils during sepsis results in the widespread release of proinflammatory mediators, leading to multiorgan system failure and death. However, aberrant activation of neutrophils during sepsis results in the widespread release of harmful inflammatory mediators causing host tissue injuries that can lead to multiorgan system failure and death. One of the pivotal components of neutrophil migration during inflammation is the expression of surface integrins. In this study, we show that administration of a cyclic analog of RGD peptide (Arg-Gly-Asp) significantly reduced the number of tissue-invading neutrophils and the degree of sepsis-induced lethality in mice as compared with control peptide. Second, β1 integrin (CD29) was highly upregulated on the neutrophils isolated from both septic patients and animals. Finally, conditional genetic ablation of β1 integrin from granulocytes also improved survival and bacterial clearance in septic animals Thus, our results indicate that expression of β1 integrin is important for modulating neutrophil trafficking during sepsis and that therapeutics designed against β1 integrins may be beneficial.

Published

2012

79. β3 integrin is dispensable for conditioned fear and hebbian forms of plasticity in the hippocampus.

Author

McGeachie AB, Skrzypiec AE, Cingolani LA, Letellier M, Pawlak R, and Goda Y

Subjects

Animals, Excitatory Postsynaptic Potentials, Integrin beta1 genetics, Integrin beta1 physiology, Integrin beta3 physiology, Long-Term Potentiation physiology, Long-Term Synaptic Depression genetics, Long-Term Synaptic Depression physiology, Mice, Mice, Inbred C57BL, Mice, Knockout, Receptors, AMPA physiology, Fear physiology, Hippocampus physiology, Integrin beta3 genetics, Long-Term Potentiation genetics

Abstract

Integrins play key roles in the developing and mature nervous system, from promoting neuronal process outgrowth to facilitating synaptic plasticity. Recently, in hippocampal pyramidal neurons, β3 integrin (ITGβ3) was shown to stabilise synaptic AMPA receptors (AMPARs) and to be required for homeostatic scaling of AMPARs elicited by chronic activity suppression. To probe the physiological function for ITGβ3-dependent processes in the brain, we examined whether the loss of ITGβ3 affected fear-related behaviours in mice. ITGβ3-knockout (KO) mice showed normal conditioned fear responses that were similar to those of control wild-type mice. However, anxiety-like behaviour appeared substantially compromised and could be reversed to control levels by lentivirus-mediated re-expression of ITGβ3 bilaterally in the ventral hippocampus. In hippocampal slices, the loss of ITGβ3 activity did not compromise hebbian forms of plasticity--neither acute pharmacological disruption of ITGβ3 ligand interactions nor genetic deletion of ITGβ3 altered long-term potentiation (LTP) or long-term depression (LTD). Moreover, we did not detect any changes in short-term synaptic plasticity upon loss of ITGβ3 activity. In contrast, acutely disrupting ITGβ1-ligand interactions or genetic deletion of ITGβ1 selectively interfered with LTP stabilisation whereas LTD remained unaltered. These findings indicate a lack of requirement for ITGβ3 in the two robust forms of hippocampal long-term synaptic plasticity, LTP and LTD, and suggest differential roles for ITGβ1 and ITGβ3 in supporting hippocampal circuit functions., (© 2012 The Authors. European Journal of Neuroscience © 2012 Federation of European Neuroscience Societies and Blackwell Publishing Ltd.)

Published

2012

80. Integrin β1 mediates epithelial growth factor-induced invasion in human ovarian cancer cells.

Author

Lau MT, So WK, and Leung PC

Subjects

Cell Line, Tumor, Female, Gene Knockdown Techniques, Humans, Integrin beta1 genetics, Integrin beta1 physiology, MAP Kinase Signaling System, Neoplasm Invasiveness pathology, Up-Regulation, Epidermal Growth Factor pharmacology, Integrin beta1 metabolism, Ovarian Neoplasms metabolism, Ovarian Neoplasms pathology

Abstract

Integrins function as cell-extracellular matrix adhesion proteins and have been implicated in tumor progression. In ovarian tumors, elevated integrin β1 expression correlates with high clinical stage and poor patient survival. In this study, we report that EGF treatment up-regulated integrin β1 mRNA and protein levels in ovarian cancer cells. Moreover, pharmacological inhibition of MEK totally abolished EGF-induced integrin β1 up-regulation and cell invasion suggesting that MAPK/ERK signaling is required for EGF-induced integrin β1 up-regulation and cell invasion. Furthermore, we found that knockdown of integrin β1 expression reduced the intrinsic invasiveness of ovarian cancer cells and the EGF-induced cell invasion. Finally, we found that overexpression of integrin β1 was sufficient to promote ovarian cancer cell invasion. This study demonstrates that integrin β1 mediates EGF-induced cell invasion in ovarian cancer., (Copyright © 2012 Elsevier Ireland Ltd. All rights reserved.)

Published

2012

81. CD133(-) cells, derived from a single human colon cancer cell line, are more resistant to 5-fluorouracil (FU) than CD133(+) cells, dependent on the β1-integrin signaling.

Author

Hongo K, Tanaka J, Tsuno NH, Kawai K, Nishikawa T, Shuno Y, Sasaki K, Kaneko M, Hiyoshi M, Sunami E, Kitayama J, Takahashi K, and Nagawa H

Subjects

AC133 Antigen, Adenocarcinoma drug therapy, Adenocarcinoma immunology, Adenocarcinoma physiopathology, Antigens, CD genetics, Antimetabolites, Antineoplastic therapeutic use, Apoptosis physiology, Biomarkers, Tumor immunology, Cell Line, Tumor, Cell Movement physiology, Cell Transformation, Neoplastic immunology, Cell Transformation, Neoplastic pathology, Colorectal Neoplasms immunology, Colorectal Neoplasms physiopathology, Glycoproteins genetics, Humans, Peptides genetics, Treatment Outcome, Antigens, CD metabolism, Colorectal Neoplasms drug therapy, Drug Resistance, Neoplasm immunology, Fluorouracil therapeutic use, Glycoproteins deficiency, Glycoproteins metabolism, Integrin beta1 physiology, Peptides deficiency, Peptides metabolism, Signal Transduction physiology

Abstract

Background and Aim: Recently, the cancer stem cells (CSCs) theory has been proposed, and CD133 has been suggested as a potential marker of CSCs in various cancer types. In the present study, we aimed evaluate CD133 as a potential marker of colorectal CSCs and, for this purpose, isolated CD133(+) and CD133(-) cells from a single colorectal cancer cell line, and compared their features, especially related to the tumor-forming and differentiation abilities, and the sensitivity to chemotherapy., Methods and Results: CD133(+) cells had higher in vivo tumor-forming ability than CD133(-) cells, and in culture, they progressively differentiated into CD133(-) cells, but not vice-versa. On the other hand, CD133(-) cells were more resistant to 5-fluorouracil (FU) treatment than CD133(+) cells, and it was found to be dependent on the higher expression of ß1-integrins, and consequently, higher ability to bind collagen. Disruption of the ß1-integrin function abrogated the chemoresistance., Conclusion: From the present results, we concluded that colorectal cancer CD133(+) cells, although showing some features of CSCs, are not more resistant to 5-FU than CD133(-) cells. Therefore, definite conclusions can not be drawn yet, but it is strongly suggestive that CD133 should not be used as a single CSC marker of colorectal cancer., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

82. LNK (SH2B3) is a key regulator of integrin signaling in endothelial cells and targets α-parvin to control cell adhesion and migration.

Author

Devallière J, Chatelais M, Fitau J, Gérard N, Hulin P, Velazquez L, Turner CE, and Charreau B

Subjects

Adaptor Proteins, Signal Transducing, Cell-Matrix Junctions metabolism, Focal Adhesions drug effects, Human Umbilical Vein Endothelial Cells, Humans, Integrin beta1 physiology, Intracellular Signaling Peptides and Proteins, Proto-Oncogene Proteins c-akt metabolism, Cell Adhesion drug effects, Cell Movement drug effects, Focal Adhesions physiology, Microfilament Proteins metabolism, Protein Serine-Threonine Kinases metabolism, Proteins physiology, Signal Transduction physiology

Abstract

Focal adhesion (FA) formation and disassembly play an essential role in adherence and migration of endothelial cells. These processes are highly regulated and involve various signaling molecules that are not yet completely identified. Lnk [Src homology 2-B3 (SH2B3)] belongs to a family of SH2-containing proteins with important adaptor functions. In this study, we showed that Lnk distribution follows that of vinculin, localizing Lnk in FAs. Inhibition of Lnk by RNA interference resulted in decreased spreading, whereas sustained expression dramatically increases the number of focal and cell-matrix adhesions. We demonstrated that Lnk expression impairs FA turnover and cell migration and regulates β1-integrin-mediated signaling via Akt and GSK3β phosphorylation. Moreover, the α-parvin protein was identified as one of the molecular targets of Lnk responsible for impaired FA dynamics and cell migration. Finally, we established the ILK protein as a new molecular partner for Lnk and proposed a model in which Lnk regulates α-parvin expression through its interaction with ILK. Collectively, our results underline the adaptor Lnk as a novel and effective key regulator of integrin-mediated signaling controlling endothelial cell adhesion and migration.

Published

2012

83. Detachment strength of human osteoblasts cultured on hydroxyapatite with various surface roughness. Contribution of integrin subunits.

Author

Kokkinos PA, Koutsoukos PG, and Deligianni DD

Subjects

Antibodies, Blocking, Antibodies, Monoclonal, Biomechanical Phenomena, Bone Substitutes chemistry, Cell Culture Techniques, Cell Shape physiology, Cells, Cultured, Coated Materials, Biocompatible, Fibronectins, Humans, Integrin alphaV physiology, Integrin beta1 physiology, Integrin beta3, Integrins antagonists & inhibitors, Materials Testing instrumentation, Microscopy, Electron, Scanning, Stress, Mechanical, Surface Properties, Biocompatible Materials chemistry, Cell Adhesion physiology, Durapatite chemistry, Integrins physiology, Osteoblasts cytology, Osteoblasts physiology

Abstract

Hydroxyapatite (HA) has been widely used as a bone substitute in dental, maxillofacial and orthopaedic surgery and as osteoconductive bone substitute or precoating of pedicle screws and cages in spine surgery. The aim of the present study was to investigate the osteoblastic adhesion strength on HA substrata with different surface topography and biochemistry (pre-adsorption of fibronectin) after blocking of specific integrin subunits with monoclonal antibodies. Stoichiometric HA was prepared by precipitation followed by ageing and characterized by SEM, EDX, powder XRD, Raman spectroscopy, TGA, and specific surface area analysis. Human bone marrow derived osteoblasts were cultured on HA disc-shaped substrata which were sintered and polished resulting in two surface roughness grades. For attachment evaluation, cells were incubated with monoclonal antibodies and seeded for 2 h on the substrata. Cell detachment strength was determined using a rotating disc device. Cell detachment strength was surface roughness, fibronectin preadsorption and intergin subunit sensitive.

Published

2012

84. An essential requirement for β1 integrin in the assembly of extracellular matrix proteins within the vascular wall.

Author

Turlo KA, Noel OD, Vora R, LaRussa M, Fassler R, Hall-Glenn F, and Iruela-Arispe ML

Subjects

Animals, Aorta embryology, Aorta pathology, Aorta physiology, Aorta, Thoracic physiology, Aortic Aneurysm genetics, Branchial Region physiology, Cell Differentiation, Endothelium, Vascular embryology, Gene Deletion, Gene Expression Regulation, Developmental, Mice, Myocytes, Smooth Muscle cytology, Myocytes, Smooth Muscle physiology, Aorta, Thoracic embryology, Branchial Region embryology, Extracellular Matrix Proteins physiology, Integrin beta1 physiology

Abstract

β1 integrin has been shown to contribute to vascular smooth muscle cell differentiation, adhesion and mechanosensation in vitro. Here we showed that deletion of β1 integrin at the onset of smooth muscle differentiation resulted in interrupted aortic arch, aneurysms and failure to assemble extracellular matrix proteins. These defects result in lethality prior to birth. Our data indicates that β1 integrin is not required for the acquisition, but it is essential for the maintenance of the smooth muscle cell phenotype, as levels of critical smooth muscle proteins are gradually reduced in mutant mice. Furthermore, while deposition of extracellular matrix was not affected, its structure was disrupted. Interestingly, defects in extracellular matrix and vascular wall assembly, were restricted to the aortic arch and its branches, compromising the brachiocephalic and carotid arteries and to the exclusion of the descending aorta. Additional analysis of β1 integrin in the pharyngeal arch smooth muscle progenitors was performed using wnt1Cre. Neural crest cells deleted for β1 integrin were able to migrate to the pharyngeal arches and associate with endothelial lined arteries; but exhibited vascular remodeling defects and early lethality. This work demonstrates that β1 integrin is dispensable for migration and initiation of the smooth muscle differentiation program, however, it is essential for remodeling of the pharyngeal arch arteries and for the assembly of the vessel wall of their derivatives. It further establishes a critical role of β1 integrin in the protection against aneurysms that is particularly confined to the ascending aorta and its branches., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

85. N-cadherin and β1-integrins cooperate during the development of the enteric nervous system.

Author

Broders-Bondon F, Paul-Gilloteaux P, Carlier C, Radice GL, and Dufour S

Subjects

Animals, Cadherins genetics, Cadherins physiology, Cell Adhesion physiology, Cell Differentiation physiology, Cell Movement physiology, Enteric Nervous System metabolism, Enteric Nervous System physiology, Female, Integrin beta1 genetics, Integrin beta1 physiology, Male, Mice, Neural Crest embryology, Neural Crest physiology, Signal Transduction physiology, Cadherins metabolism, Enteric Nervous System growth & development, Integrin beta1 metabolism

Abstract

Cell adhesion controls various embryonic morphogenetic processes, including the development of the enteric nervous system (ENS). Ablation of β1-integrin (β1-/-) expression in enteric neural crest cells (ENCC) in mice leads to major alterations in the ENS structure caused by reduced migration and increased aggregation properties of ENCC during gut colonization, which gives rise to a Hirschsprung's disease-like phenotype. In the present study, we examined the role of N-cadherin in ENS development and the interplay with β1 integrins during this process. The Ht-PA-Cre mouse model was used to target gene disruption of N-cadherin and β1 integrin in migratory NCC and to produce single- and double-conditional mutants for these two types of adhesion receptors. Double mutation of N-cadherin and β1 integrin led to embryonic lethality with severe defects in ENS development. N-cadherin-null (Ncad-/-) ENCC exhibited a delayed colonization in the developing gut at E12.5, although this was to a lesser extent than in β1-/- mutants. This delay of Ncad-/- ENCC migration was recovered at later stages of development. The double Ncad-/-; β1-/- mutant ENCC failed to colonize the distal part of the gut and there was more severe aganglionosis in the proximal hindgut than in the single mutants for N-cadherin or β1-integrin. This was due to an altered speed of locomotion and directionality in the gut wall. The abnormal aggregation defect of ENCC and the disorganized ganglia network in the β1-/- mutant was not observed in the double mutant. This indicates that N-cadherin enhances the effect of the β1-integrin mutation and demonstrates cooperation between these two adhesion receptors during ENS ontogenesis. In conclusion, our data reveal that N-cadherin is not essential for ENS development but it does modulate the modes of ENCC migration and acts in concert with β1-integrin to control the proper development of the ENS., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

86. β₁Integrin/FAK/cortactin signaling is essential for human head and neck cancer resistance to radiotherapy.

Author

Eke I, Deuse Y, Hehlgans S, Gurtner K, Krause M, Baumann M, Shevchenko A, Sandfort V, and Cordes N

Subjects

Amino Acid Motifs, Animals, Antibodies, Monoclonal immunology, Antibodies, Monoclonal pharmacology, Carcinoma, Squamous Cell metabolism, Carcinoma, Squamous Cell pathology, Cortactin chemistry, Female, Focal Adhesion Kinase 1 chemistry, Head and Neck Neoplasms metabolism, Head and Neck Neoplasms pathology, Humans, Integrin beta1 immunology, Male, Mice, Mice, Nude, Mitogen-Activated Protein Kinase 8 deficiency, Mitogen-Activated Protein Kinase 8 genetics, Mitogen-Activated Protein Kinase 8 physiology, Mitogen-Activated Protein Kinase 9 deficiency, Mitogen-Activated Protein Kinase 9 genetics, Mitogen-Activated Protein Kinase 9 physiology, Multiprotein Complexes, Neoplasm Proteins chemistry, Neoplasm Transplantation, Phosphorylation, Protein Interaction Mapping, Protein Processing, Post-Translational, RNA, Small Interfering pharmacology, Radiation-Sensitizing Agents pharmacology, Signal Transduction, Tumor Cells, Cultured radiation effects, Carcinoma, Squamous Cell radiotherapy, Cortactin physiology, Focal Adhesion Kinase 1 physiology, Head and Neck Neoplasms radiotherapy, Integrin beta1 physiology, Neoplasm Proteins physiology, Radiation Tolerance physiology

Abstract

Integrin signaling critically contributes to the progression, growth, and therapy resistance of malignant tumors. Here, we show that targeting of β₁ integrins with inhibitory antibodies enhances the sensitivity to ionizing radiation and delays the growth of human head and neck squamous cell carcinoma cell lines in 3D cell culture and in xenografted mice. Mechanistically, dephosphorylation of focal adhesion kinase (FAK) upon inhibition of β₁ integrin resulted in dissociation of a FAK/cortactin protein complex. This, in turn, downregulated JNK signaling and induced cell rounding, leading to radiosensitization. Thus, these findings suggest that robust and selective pharmacological targeting of β₁ integrins may provide therapeutic benefit to overcome tumor cell resistance to radiotherapy.

Published

2012

87. Distinct recycling of active and inactive β1 integrins.

Author

Arjonen A, Alanko J, Veltel S, and Ivaska J

Subjects

Cell Line, Tumor, Flow Cytometry, Humans, Models, Biological, Endocytosis physiology, Integrin beta1 classification, Integrin beta1 physiology

Abstract

Integrin trafficking plays an important role in cellular motility and cytokinesis. Integrins undergo constant endo/exocytic shuttling to facilitate the dynamic regulation of cell adhesion. Integrin activity toward the components of the extracellular matrix is regulated by the ability of these receptors to switch between active and inactive conformations. Several cellular signalling pathways have been described in the regulation of integrin traffic under different conditions. However, the interrelationship between integrin activity conformations and their endocytic fate have remained incompletely understood. Here, we have investigated the endocytic trafficking of active and inactive β1 integrins in cancer cells. Both conformers are endocytosed in a clathrin- and dynamin-dependent manner. The net endocytosis rate of the active β1 integrins is higher, whereas endocytosis of the inactive β1 integrin is counteracted by rapid recycling back to the plasma membrane via an ARF6- and early endosome antigen 1-positive compartment in an Rab4a- and actin-dependent manner. Owing to these distinct trafficking routes, the two receptor pools display divergent subcellular localization. At steady state, the inactive β1 integrin is mainly on the plasma membrane, whereas the active receptor is predominantly intracellular. These data provide new insights into the endocytic traffic of integrins and imply the possibility of a previously unappreciated crosstalk between pathways regulating integrin activity and traffic., (© 2012 John Wiley & Sons A/S.)

Published

2012

88. β1 integrin gene excision in the adult murine cardiac myocyte causes defective mechanical and signaling responses.

Author

Li R, Wu Y, Manso AM, Gu Y, Liao P, Israeli S, Yajima T, Nguyen U, Huang MS, Dalton ND, Peterson KL, and Ross RS

Subjects

Animals, Aorta, Cardiomegaly metabolism, Cell Death, Constriction, Extracellular Signal-Regulated MAP Kinases metabolism, Focal Adhesion Protein-Tyrosine Kinases metabolism, Gene Deletion, Hemodynamics physiology, Integrin beta1 genetics, Mice, Mice, Inbred C57BL, Mice, Knockout, Mitogen-Activated Protein Kinases metabolism, Myocytes, Cardiac metabolism, Protein Serine-Threonine Kinases metabolism, Proto-Oncogene Proteins c-akt metabolism, Stress, Mechanical, Cardiomegaly etiology, Integrin beta1 physiology, Myocytes, Cardiac physiology, Signal Transduction physiology

Abstract

How mechanical signals are transmitted in the cardiac myocyte is poorly understood. In this study, we produced a tamoxifen-inducible mouse model in which β1 integrin could be reduced specifically in the adult cardiomyocyte, so that the function of this integrin could be assessed in the postnatal and mechanically stressed heart. The expression of β1 integrin was reduced to 35% of control levels, but function remained normal at baseline. With aortic constriction, the knockout mice survived but had a blunted hypertrophic response. Integrin knockout myocytes, in contrast to controls, showed reduced integrin-linked kinase expression both at baseline and after hemodynamic stress; focal adhesion kinase expression was reduced after stress. Alterations in multiple signaling pathways were detected in the integrin knockout group after acute and chronic hemodynamic stress. Most remarkably, when we challenged the knockout mice with short-term loading, the robust responses of several kinases (extracellular signal-regulated kinase 1/2, p38, and Akt) evident in control mice were essentially abolished in the knockout mice. We also found that reduction of myocyte β1 integrin expression modified adrenergic-mediated signaling through extracellular signal-regulated kinase, p38, and Akt. Reduction of β1 integrin expression in the mature cardiac myocyte leads to a varied response compared with when this protein is reduced during either the embryonic or perinatal period. These results show that β1 integrin expression is required for proper mechanotransductive and adrenergic responses of the adult heart., (Copyright © 2012 American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.)

Published

2012

89. Platelet activation, P-selectin, and eosinophil β1-integrin activation in asthma.

Author

Johansson MW, Han ST, Gunderson KA, Busse WW, Jarjour NN, and Mosher DF

Subjects

Adult, Asthma blood, Case-Control Studies, Enzyme-Linked Immunosorbent Assay, Female, Flow Cytometry, Humans, Integrin beta1 blood, Male, P-Selectin blood, Platelet Factor 4 blood, Thrombospondin 1 blood, Asthma physiopathology, Eosinophils physiology, Integrin beta1 physiology, P-Selectin physiology, Platelet Activation physiology

Abstract

Rationale: Eosinophil β1-integrin activation correlates inversely with FEV1 and directly with eosinophil-bound P-selectin in subjects with nonsevere allergic asthma., Objectives: Determine the relationships between β1-integrin activation and pulmonary function or eosinophil-bound P-selectin in subjects with asthma of varying severity and discern the source of eosinophil-bound P-selectin., Methods: Blood was assayed by flow cytometry for P-selectin and activated β1-integrin on eosinophils and platelets. Plasma was analyzed with ELISA for soluble P-selectin, platelet factor 4, and thrombospondin-1., Measurements and Main Results: Activated β1-integrin correlated with eosinophil-bound P-selectin among all subjects with asthma even though activated β1-integrin was higher in subjects with nonsevere asthma than severe asthma. Activated β1-integrin correlated inversely with FEV1 corrected for FVC only in younger subjects with nonsevere asthma. Paradoxically, platelet surface P-selectin, a platelet activation marker, was low in subjects with severe asthma, whereas plasma platelet factor 4, a second platelet activation marker, was high. Correlations indicated that P-selectin-positive platelets complexed to eosinophils are the major source of the eosinophil-bound P-selectin associated with β1-integrin activation. After whole-lung antigen challenge of subjects with nonsevere asthma, a model of asthma exacerbation known to cause platelet activation, circulating eosinophils bearing P-selectin and activated β1-integrin disappeared., Conclusions: The relationship between eosinophil β1-integrin activation and pulmonary function was replicated only for younger subjects with nonsevere asthma. However, we infer that platelet activation and binding of activated platelets to eosinophils followed by P-selectin-mediated eosinophil β1-integrin activation occur in both nonsevere and severe asthma with rapid movement of platelet-eosinophil complexes into the lung in more severe disease.

Published

2012

90. Stromal cell-derived factor-1/CXC receptor 4 and β1 integrin interaction regulates urokinase-type plasminogen activator expression in human colorectal cancer cells.

Author

Huang WS, Chin CC, Chen CN, Kuo YH, Chen TC, Yu HR, Tung SY, Shen CH, Hsieh YY, Guo SE, Shi CS, Liu TJ, and Kuo HC

Subjects

Cell Line, Tumor, Chemokine CXCL12 physiology, Colorectal Neoplasms enzymology, Gene Expression Regulation, Neoplastic physiology, Humans, Integrin beta1 physiology, MAP Kinase Signaling System physiology, Proto-Oncogene Proteins c-akt metabolism, Receptors, CXCR4 physiology, Sp1 Transcription Factor metabolism, Urokinase-Type Plasminogen Activator metabolism, p38 Mitogen-Activated Protein Kinases metabolism, Chemokine CXCL12 metabolism, Colorectal Neoplasms metabolism, Colorectal Neoplasms pathology, Integrin beta1 metabolism, Protein Interaction Mapping methods, Receptors, CXCR4 metabolism, Urokinase-Type Plasminogen Activator biosynthesis

Abstract

The stromal cell-derived factor-1 (SDF-1)/CXC receptor 4 (CXCR4) axis has been shown to play a role in colorectal cancer progression. In addition, the protease urokinase-type plasminogen activator (uPA) is an important factor in tumor cell invasion and metastasis. However, the mechanism by which SDF-1 mediates uPA expression in human colorectal cancer cells remains unknown. We investigated the molecular mechanism governing the interaction between SDF-1 stimulation and uPA expression in three human colon cancer cell lines (DLD-1, SW48, and COLO 205). We found that SDF-1 stimulation led to an increase in the expression and secretion of uPA in these cells. Experiments involving specific inhibitors and small interfering RNA demonstrated that the activation of p38 mitogen-activated protein kinase (MAPK) and phosphatidylinositol 3-kinase (PI3K)/Akt pathways are critical for SDF-1-induced uPA expression. Analysis of transcription factor binding using ELISA and chromatin immunoprecipitation assays revealed that SDF-1 increased Sp1- and AP-1-DNA-binding activities in DLD-1 cells. Inhibition of Sp1 and AP-1 activation blocked the SDF-1-induced expression and activity of the uPA promoter. The effect of SDF-1 on DLD-1 signaling and uPA expression was mediated by the CXCR4/β1 integrin axis. In summary, our findings elucidate the mechanisms of SDF-1/CXCR4 downstream signaling and provide insights into the function of SDF-1 in colon cancer cells., (Copyright © 2011 Wiley Periodicals, Inc.)

Published

2012

91. Insulin-like growth factor-binding protein 2-driven glioma progression is prevented by blocking a clinically significant integrin, integrin-linked kinase, and NF-κB network.

Author

Holmes KM, Annala M, Chua CY, Dunlap SM, Liu Y, Hugen N, Moore LM, Cogdell D, Hu L, Nykter M, Hess K, Fuller GN, and Zhang W

Subjects

Animals, Astrocytoma genetics, Astrocytoma metabolism, Avian Proteins genetics, Brain Neoplasms genetics, Brain Neoplasms therapy, Cell Line, Tumor, Disease Progression, Gene Expression Regulation, Neoplastic, Genes, Synthetic, Genes, sis, Genetic Vectors administration & dosage, Glioblastoma genetics, Glioblastoma therapy, Humans, I-kappa B Proteins genetics, I-kappa B Proteins toxicity, Insulin-Like Growth Factor Binding Protein 2 biosynthesis, Insulin-Like Growth Factor Binding Protein 2 genetics, Insulin-Like Growth Factor Binding Protein 2 toxicity, Intermediate Filament Proteins genetics, Kaplan-Meier Estimate, Mice, Mice, Transgenic, NF-KappaB Inhibitor alpha, Neoplasm Invasiveness, Neoplasm Proteins biosynthesis, Neoplasm Proteins genetics, Nerve Tissue Proteins genetics, Nestin, Oligodendroglioma genetics, Oligodendroglioma metabolism, Prognosis, Protein Serine-Threonine Kinases toxicity, Receptors, Virus genetics, Retroviridae, Signal Transduction physiology, Brain Neoplasms pathology, Genetic Therapy, Genetic Vectors therapeutic use, Glioblastoma pathology, Insulin-Like Growth Factor Binding Protein 2 physiology, Integrin beta1 physiology, NF-kappa B physiology, Neoplasm Proteins physiology, Protein Serine-Threonine Kinases physiology

Abstract

Insulin-like growth factor-binding protein 2 (IGFBP2) is increasingly recognized as a glioma oncogene, emerging as a target for therapeutic intervention. In this study, we used an integrative approach to characterizing the IGFBP2 network, combining transcriptional profiling of human glioma with validation in glial cells and the replication-competent ASLV long terminal repeat with a splice acceptor/tv-a glioma mouse system. We demonstrated that IGFBP2 expression is closely linked to genes in the integrin and integrin-linked kinase (ILK) pathways and that these genes are associated with prognosis. We further showed that IGFBP2 activates integrin β1 and downstream invasion pathways, requires ILK to induce cell motility, and activates NF-κB. Most significantly, the IGFBP2/integrin/ILK/NF-κB network functions as a physiologically active signaling pathway in vivo by driving glioma progression; interfering with any point in the pathway markedly inhibits progression. The results of this study reveal a signaling pathway that is both targetable and highly relevant to improving the survival of glioma patients.

Published

2012

92. Mechanoinduction of lymph vessel expansion.

Author

Planas-Paz L, Strilić B, Goedecke A, Breier G, Fässler R, and Lammert E

Subjects

Animals, Cell Proliferation, Humans, Integrin beta1 genetics, Integrin beta1 physiology, Mice, Phosphorylation, Signal Transduction, Vascular Endothelial Growth Factor Receptor-3 metabolism, Lymphatic Vessels cytology, Mechanotransduction, Cellular

Abstract

In the mammalian embryo, few mechanical signals have been identified to influence organ development and function. Here, we report that an increase in the volume of interstitial or extracellular fluid mechanically induces growth of an organ system, that is, the lymphatic vasculature. We first demonstrate that lymph vessel expansion in the developing mouse embryo correlates with a peak in interstitial fluid pressure and lymphatic endothelial cell (LEC) elongation. In 'loss-of-fluid' experiments, we then show that aspiration of interstitial fluid reduces the length of LECs, decreases tyrosine phosphorylation of vascular endothelial growth factor receptor-3 (VEGFR3), and inhibits LEC proliferation. Conversely, in 'gain-of-fluid' experiments, increasing the amount of interstitial fluid elongates the LECs, and increases both VEGFR3 phosphorylation and LEC proliferation. Finally, we provide genetic evidence that β1 integrins are required for the proliferative response of LECs to both fluid accumulation and cell stretching and, therefore, are necessary for lymphatic vessel expansion and fluid drainage. Thus, we propose a new and physiologically relevant mode of VEGFR3 activation, which is based on mechanotransduction and is essential for normal development and fluid homeostasis in a mammalian embryo.

Published

2012

93. Tumorigenic cells are common in mouse MPNSTs but their frequency depends upon tumor genotype and assay conditions.

Author

Buchstaller J, McKeever PE, and Morrison SJ

Subjects

Animals, Cell Proliferation, Genotype, Integrin beta1 metabolism, Integrin beta1 physiology, Laminin metabolism, Mice, Nerve Sheath Neoplasms genetics, Nerve Sheath Neoplasms metabolism, Tumor Cells, Cultured, Cell Transformation, Neoplastic, Nerve Sheath Neoplasms pathology

Abstract

Tumor-initiating cells have been suggested to be rare in many cancers. We tested this in mouse malignant peripheral nerve sheath tumors (MPNSTs) and found that 18% of primary and 49% of passaged MPNST cells from Nf1(+/-); Ink4a/Arf(-/-) mice formed tumors upon transplantation, whereas only 1.8% to 2.6% of MPNST cells from Nf1(+/-); p53(+/-) mice did. MPNST cells of both genotypes require laminin binding to β1-integrin for clonogenic growth. Most MPNST cells from Nf1(+/-); Ink4a/Arf(-/-) mice expressed laminin, whereas most MPNST cells from Nf1(+/-); p53(+/-) mice did not. Exogenous laminin increased the percentage of MPNST cells from Nf1(+/-); p53(+/-) but not Nf1(+/-); Ink4a/Arf(-/-) mice that formed tumorigenic colonies. Tumor-forming potential is common among MPNST cells, but the assay conditions required to detect it vary with tumor genotype., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

94. Integrin Beta 1 suppresses multilayering of a simple epithelium.

Author

Chen J and Krasnow MA

Subjects

Animals, Cells, Cultured, Down-Regulation genetics, Embryo, Mammalian, Embryonic Development physiology, Epithelium metabolism, Epithelium physiology, Female, Integrin beta1 genetics, Integrin beta1 metabolism, Male, Mice, Mice, Transgenic, Models, Biological, Organogenesis genetics, Respiratory Mucosa embryology, Respiratory Mucosa metabolism, Embryonic Development genetics, Epithelium embryology, Integrin beta1 physiology

Abstract

Epithelia are classified as either simple, a single cell layer thick, or stratified (multilayered). Stratified epithelia arise from simple epithelia during development, and transcription factor p63 functions as a key positive regulator of epidermal stratification. Here we show that deletion of integrin beta 1 (Itgb1) in the developing mouse airway epithelium abrogates airway branching and converts this monolayer epithelium into a multilayer epithelium with more than 10 extra layers. Mutant lung epithelial cells change mitotic spindle orientation to seed outer layers, and cells in different layers become molecularly and functionally distinct, hallmarks of normal stratification. However, mutant lung epithelial cells do not activate p63 and do not switch to the stratified keratin profile of epidermal cells. These data, together with previous data implicating Itgb1 in regulation of epidermal stratification, suggest that the simple-versus-stratified developmental decision may involve not only stratification inducers like p63 but suppressors like Itgb1 that prevent simple epithelia from inappropriately activating key steps in the stratification program.

Published

2012

95. Major host factors involved in epithelial cell invasion of Campylobacter jejuni: role of fibronectin, integrin beta1, FAK, Tiam-1, and DOCK180 in activating Rho GTPase Rac1.

Author

Boehm M, Krause-Gruszczynska M, Rohde M, Tegtmeyer N, Takahashi S, Oyarzabal OA, and Backert S

Subjects

Animals, Bacterial Outer Membrane Proteins genetics, Bacterial Outer Membrane Proteins physiology, Base Sequence, Campylobacter Infections etiology, Campylobacter jejuni genetics, Campylobacter jejuni ultrastructure, Carrier Proteins genetics, Carrier Proteins physiology, Cell Line, Enzyme Activation, Epithelial Cells microbiology, Epithelial Cells ultrastructure, Fibronectins deficiency, Fibronectins genetics, Fibronectins physiology, Focal Adhesion Kinase 1 deficiency, Focal Adhesion Kinase 1 genetics, Focal Adhesion Kinase 1 physiology, Genes, Bacterial, Guanine Nucleotide Exchange Factors physiology, Host-Pathogen Interactions genetics, Humans, Integrin beta1 genetics, Integrin beta1 physiology, Mice, Mice, Knockout, Microscopy, Electron, Scanning, Models, Biological, Mutation, Neuropeptides physiology, RNA, Small Interfering genetics, Signal Transduction, T-Lymphoma Invasion and Metastasis-inducing Protein 1, Virulence genetics, Virulence physiology, rac GTP-Binding Proteins antagonists & inhibitors, rac GTP-Binding Proteins genetics, rac GTP-Binding Proteins physiology, rac1 GTP-Binding Protein antagonists & inhibitors, rac1 GTP-Binding Protein genetics, rac1 GTP-Binding Protein physiology, Campylobacter jejuni pathogenicity, Host-Pathogen Interactions physiology

Abstract

Host cell entry by the food-borne pathogen Campylobacter jejuni has been reported as one of the primary reasons of tissue damage in infected humans, however, molecular invasion mechanisms and cellular factors involved in this process are widely unclear. Here we used knockout cell lines derived from fibronectin(-/-), integrin beta1(-/-), and focal adhesion kinase (FAK)(-/-) deficient mice and corresponding wild-type (WT) controls, to study C. jejuni-induced signaling cascades involved in the bacterial invasion process. Using high resolution scanning electron microscopy, GTPase pull-downs, G-LISA, and gentamicin protection assays we found that each of these host cell factors is indeed required for activation of the small Rho GTPase member Rac1 and maximal host cell invasion of this pathogen. Interestingly, membrane ruffling, tight engulfment of bacteria and invasion were only seen during infection of WT control cells, but not in fibronectin(-/-), integrin beta1(-/-), and FAK(-/-) knockout cell lines. We also demonstrate that C. jejuni activates FAK autophosphorylation activity at Y-397 and phosphorylation of Y-925, which is required for stimulating two downstream guanine exchange factors, DOCK180 and Tiam-1, which are upstream of Rac1. Small interfering (si) RNA studies further show that DOCK180 and Tiam-1 act cooperatively to trigger Rac1 activation and C. jejuni invasion. Moreover, mutagenesis data indicate that the bacterial fibronectin-binding protein CadF and the intact flagellum are involved in Rho GTPase activation and host cell invasion. Collectively, our results suggest that C. jejuni infection of host epithelial target cells hijacks a major fibronectin → integrin beta1 → FAK → DOCK180/Tiam-1 signaling cascade, which has a crucial role for Rac1 GTPase activity and bacterial entry into host target cells.

Published

2011

96. Hormonal regulation of galectin 3 in trophoblasts and its effects on endometrium.

Author

Yang H, Taylor HS, Lei C, Cheng C, and Zhang W

Subjects

Apoptosis drug effects, Cell Division drug effects, Cell Line, Embryo Implantation physiology, Female, Galectin 3 pharmacology, Galectin 3 physiology, Gene Expression Regulation drug effects, Humans, Integrin beta1 physiology, Chorionic Gonadotropin pharmacology, Endometrium physiology, Estradiol pharmacology, Galectin 3 genetics, Progesterone pharmacology, Trophoblasts metabolism

Abstract

Previous studies had shown important functions of galectin 3 (Gal-3) in endometrium during embryo implantation, in regulation of endometrial cell proliferation and adhesion by interacting with integrin β3. In this study, we investigated hormonal regulation of Gal-3 in trophoblasts and its extracellular effects on endometrium. We used BeWo and RL95-2 cells as a model of trophoblastic and endometrial epithelial cells, respectively, to create an in vivo model of embryo implantation. Our results indicated that 17β-estradiol (E2), progesterone (P4), and human chorionic gonadotropin (hCG) induced the expression of Gal-3 and promoted its secretion from BeWo cells. The exogenous Gal-3 inhibited cell proliferation and induced apoptosis of endometrial cells (RL95-2 cells) through activation of integrin β1. We further validated the proapoptotic effect of Gal-3 secreted by trophoblastic cell on endometrial cells by culturing RL95-2 cells with Bewo cells and measuring the apoptotic rate. Our analysis provides new insight into the critical roles of Gal-3 in embryo implantation.

Published

2011

97. Integrin β1 is necessary for the maintenance of corneal structural integrity.

Author

Parapuram SK, Huh K, Liu S, and Leask A

Subjects

Animals, Cells, Cultured, Corneal Edema metabolism, Corneal Stroma metabolism, Cyclin D1 metabolism, Endothelium, Corneal pathology, Epithelium, Corneal metabolism, Epithelium, Corneal pathology, Extracellular Matrix metabolism, Female, Fibroblasts metabolism, Gene Deletion, Integrases genetics, Keratoconus metabolism, Male, Mice, Mice, Knockout, Microscopy, Fluorescence, Polymerase Chain Reaction, Corneal Edema pathology, Corneal Stroma cytology, Fibroblasts pathology, Integrin beta1 physiology, Keratoconus pathology

Abstract

Purpose: The precise role of a normal keratocyte in maintaining corneal structural integrity is unclear; it is generally considered to remain quiescent at the end of cell division. Given that integrins are essential for cell/extracellular matrix interactions, the authors tested the hypothesis that integrin expression by keratocytes is essential for corneal structure and function., Methods: Using a tamoxifen-dependent cre recombinase expressed under the control of a fibroblast-specific promoter/enhancer, the authors conditionally deleted the integrin β1 (Itgb1) gene in mouse keratocytes during the postnatal matrix maturation phase of the cornea. The effects of this deletion were monitored histologically and by macroscopic observation of the cornea., Results: The resultant cornea shows an initial thinning of the stroma, reduced space between collagen fibrils, loss of epithelial layers and subsequent edema, thickening of Descemet's membrane, and degenerative changes in the endothelial cell layer, with eventual scarring. These pathologic changes have some similarities to human corneal disease keratoconus. The phenotype did not develop when Itgb1 was deleted after complete corneal maturation., Conclusions: Loss of integrin β1 expression in keratocytes during the phase of stromal maturation results in corneal thinning and edema. Keratocyte-ECM interaction is essential for matrix maturation and thus in the maintenance of corneal structural integrity. This model has relevance in understanding corneal diseases such as keratoconus.

Published

2011

98. Hypoxia-inducible factor 1 alpha-activated angiopoietin-like protein 4 contributes to tumor metastasis via vascular cell adhesion molecule-1/integrin β1 signaling in human hepatocellular carcinoma.

Author

Li H, Ge C, Zhao F, Yan M, Hu C, Jia D, Tian H, Zhu M, Chen T, Jiang G, Xie H, Cui Y, Gu J, Tu H, He X, Yao M, Liu Y, and Li J

Subjects

Adult, Aged, Angiopoietin-Like Protein 4, Carcinoma, Hepatocellular pathology, Cell Line, Tumor, Cell Movement, Endothelial Cells metabolism, Female, Humans, Integrin beta1 physiology, Liver Neoplasms pathology, Male, Middle Aged, Vascular Cell Adhesion Molecule-1 physiology, Angiopoietins physiology, Carcinoma, Hepatocellular metabolism, Hypoxia-Inducible Factor 1, alpha Subunit physiology, Liver Neoplasms metabolism, Signal Transduction

Abstract

Unlabelled: Angiopoietin-like protein 4 (ANGPTL4) plays complex and often contradictory roles in vascular biology and tumor metastasis, but little is known about its function in hepatocellular carcinoma (HCC) metastasis. In the present study, we showed that hypoxia-inducible factor 1α (HIF-1α) directly up-regulates ANGPTL4, and its stableness positively correlates with ANGPTL4 expression in HCC tissue. Overexpression of ANGPTL4 significantly increased HCC cell transendothelial migration in vitro and intrahepatic and distal pulmonary metastasis in vivo, whereas silencing ANGPTL4 expression or treatment with a neutralizing antibody specific for ANGPTL4 protein resulted in a reduced transendothelial migration. We also found that serum ANGPTL4 is higher in HCC patients, compared to healthy control, and correlates with intrahepatic metastasis and histological grade. Further, secreted ANGPTL4 promotes transendothelial migration and metastasis of HCC cells in vitro and in vivo through the up-regulation of vascular cell adhesion molecule-1 (VCAM-1) of human umbilical vein endothelial cells and the activation of the VCAM-1/integrin β1 axis., Conclusion: ANGPTL4 is a target gene of HIF-1α and acts as an important regulator in the metastasis of HCC. Serum ANGPTL4 correlates with tumor progression and metastasis and might be used to indicate prognosis in HCC patients., (Copyright © 2011 American Association for the Study of Liver Diseases.)

Published

2011

99. Non-redundant function of dystroglycan and β1 integrins in radial sorting of axons.

Author

Berti C, Bartesaghi L, Ghidinelli M, Zambroni D, Figlia G, Chen ZL, Quattrini A, Wrabetz L, and Feltri ML

Subjects

Animals, Axons drug effects, Axons metabolism, Cell Movement drug effects, Cells, Cultured, Dystroglycans genetics, Dystroglycans metabolism, Humans, Integrin beta1 genetics, Integrin beta1 metabolism, Mice, Mice, Inbred C57BL, Mice, Transgenic, Muscular Dystrophies genetics, Muscular Dystrophies metabolism, Myelin Sheath metabolism, RNA, Small Interfering pharmacology, Radial Nerve drug effects, Radial Nerve metabolism, Rats, Signal Transduction drug effects, Signal Transduction genetics, Signal Transduction physiology, Time Factors, Axons physiology, Cell Movement genetics, Dystroglycans physiology, Integrin beta1 physiology, Radial Nerve physiology

Abstract

Radial sorting allows the segregation of axons by a single Schwann cell (SC) and is a prerequisite for myelination during peripheral nerve development. Radial sorting is impaired in models of human diseases, congenital muscular dystrophy (MDC) 1A, MDC1D and Fukuyama, owing to loss-of-function mutations in the genes coding for laminin α2, Large or fukutin glycosyltransferases, respectively. It is not clear which receptor(s) are activated by laminin 211, or glycosylated by Large and fukutin during sorting. Candidates are αβ1 integrins, because their absence phenocopies laminin and glycosyltransferase deficiency, but the topography of the phenotypes is different and β1 integrins are not substrates for Large and fukutin. By contrast, deletion of the Large and fukutin substrate dystroglycan does not result in radial sorting defects. Here, we show that absence of dystroglycan in a specific genetic background causes sorting defects with topography identical to that of laminin 211 mutants, and recapitulating the MDC1A, MDC1D and Fukuyama phenotypes. By epistasis studies in mice lacking one or both receptors in SCs, we show that only absence of β1 integrins impairs proliferation and survival, and arrests radial sorting at early stages, that β1 integrins and dystroglycan activate different pathways, and that the absence of both molecules is synergistic. Thus, the function of dystroglycan and β1 integrins is not redundant, but is sequential. These data identify dystroglycan as a functional laminin 211 receptor during axonal sorting and the key substrate relevant to the pathogenesis of glycosyltransferase congenital muscular dystrophies.

Published

2011

100. Galectin-7 modulates the length of the primary cilia and wound repair in polarized kidney epithelial cells.

Author

Rondanino C, Poland PA, Kinlough CL, Li H, Rbaibi Y, Myerburg MM, Al-bataineh MM, Kashlan OB, Pastor-Soler NM, Hallows KR, Weisz OA, Apodaca G, and Hughey RP

Subjects

Animals, Cell Membrane physiology, Cells, Cultured, Dogs, Epithelial Cells cytology, Epithelial Cells ultrastructure, Galectins genetics, Humans, Integrin beta1 physiology, Kidney cytology, Kidney ultrastructure, Kidney Tubules, Proximal cytology, Kidney Tubules, Proximal physiology, Kidney Tubules, Proximal ultrastructure, Mice, Mice, Knockout, Protein Binding physiology, Rats, Swine, Cilia physiology, Cilia ultrastructure, Epithelial Cells physiology, Galectins physiology, Kidney physiology, Wound Healing physiology

Abstract

Galectins (Gal) are β-galactoside-binding proteins that function in epithelial development and homeostasis. An overlapping role for Gal-3 and Gal-7 in wound repair was reported in stratified epithelia. Although Gal-7 was thought absent in simple epithelia, it was reported in a proteomic analysis of cilia isolated from cultured human airway, and we recently identified Gal-7 transcripts in Madin-Darby canine kidney (MDCK) cells (Poland PA, Rondanino C, Kinlough CL, Heimburg-Molinaro J, Arthur CM, Stowell SR, Smith DF, Hughey RP. J Biol Chem 286: 6780-6790, 2011). We now report that Gal-7 is localized exclusively on the primary cilium of MDCK, LLC-PK(1) (pig kidney), and mpkCCD(c14) (mouse kidney) cells as well as on cilia in the rat renal proximal tubule. Gal-7 is also present on most cilia of multiciliated cells in human airway epithelia primary cultures. Interestingly, exogenous glutathione S-transferase (GST)-Gal-7 bound the MDCK apical plasma membrane as well as the cilium, while the lectin Ulex europeaus agglutinin, with glycan preferences similar to Gal-7, bound the basolateral plasma membrane as well as the cilium. In pull-down assays, β1-integrin isolated from either the basolateral or apical/cilia membranes of MDCK cells was similarly bound by GST-Gal-7. Selective localization of Gal-7 to cilia despite the presence of binding sites on all cell surfaces suggests that intracellular Gal-7 is specifically delivered to cilia rather than simply binding to surface glycoconjugates after generalized secretion. Moreover, depletion of Gal-7 using tetracycline-induced short-hairpin RNA in mpkCCD(c14) cells significantly reduced cilia length and slowed wound healing in a scratch assay. We conclude that Gal-7 is selectively targeted to cilia and plays a key role in surface stabilization of glycoconjugates responsible for integrating cilia function with epithelial repair.

Published

2011