Your search keyword '"Geiger, B"' showing total 80 results

1. Fast wide-angle DBT with high in-plane resolution: system concept and first clinical results

Author

Giger, Maryellen L., Whitney, Heather M., Drukker, Karen, Li, Hui, Kappler, S., Beister, M., Freudenberger, J., Geiger, B., Hall, K., Hebecker, A., He, W., Hellingman, D., Klinnert, T., Krumbuegel, A., Lueck, F., Nanke, R., Radicke, M., Ritschl, L., Wicklein, J., and Vogt, S.

Published

2024

2. Open Archives for Open Science at the ESAC Science Data Centre (ESDC).

Author

González-Núñez, J., Ríos, C., Salgado, J., Macfarlane, A., Barbarisi, I., Arviset, C., Álvarez, R., Geiger, B., Rourke, L. O., Baldwin, E., Merin, B., Aguado-Agelet, F., and O'Mullane, W.

Published

2016

3. Bayesian Integrated Data Analysis of Fast-Ion Measurements by Velocity-Space Tomography

Author

Salewski, M., Nocente, M., Jacobsen, A. S., Binda, F., Cazzaniga, C., Eriksson, J., Geiger, B., Gorini, G., Hellesen, C., Kiptily, V. G., Koskela, T., Korsholm, S. B., Kurki-Suonio, T., Leipold, F., Moseev, D., Nielsen, S. K., Rasmussen, J., Schneider, P. A., Sharapov, S. E., Stejner, M., Tardocchi, M., Contributors, JET, Team, ASDEX Upgrade, and Team, EUROfusion MST1

Abstract

AbstractBayesian integrated data analysis combines measurements from different diagnostics to jointly measure plasma parameters of interest such as temperatures, densities, and drift velocities. Integrated data analysis of fast-ion measurements has long been hampered by the complexity of the strongly non-Maxwellian fast-ion distribution functions. This has recently been overcome by velocity-space tomography. In this method two-dimensional images of the velocity distribution functions consisting of a few hundreds or thousands of pixels are reconstructed using the available fast-ion measurements. Here we present an overview and current status of this emerging technique at the ASDEX Upgrade tokamak and the JET toamak based on fast-ion D-alpha spectroscopy, collective Thomson scattering, gamma-ray and neutron emission spectrometry, and neutral particle analyzers. We discuss Tikhonov regularization within the Bayesian framework. The implementation for different types of diagnostics as well as the uncertainties are discussed, and we highlight the importance of integrated data analysis of all available detectors.

Published

2018

4. New advances for imaging laryngo / trachealstenosis by post processing of spiral-CT data.

Author

Hruby, Walter, Sorantin, E., Mohadjer, D., Nyúl, L. G., Palágyi, K., Lindbichler, F., and Geiger, B.

Abstract

As described in the previous sections, post processing of S-CT offers challenging possibilities for Radiology including LTS imaging and assessment. The inherent information of S-CT can be displayed in different ways to the referring clinician in order to facilitate optimal patient management. Modern information technology and affordable computer hardware allow for new ways of data exchange and interaction between hospital departments. By using internet technology, asynchronous, interactive access to results of imaging and post processing can be provided. For imaging of LTS many facettes of the anatomy can be shown in order to provide a road map for therapeutical decisions. Looking at all these possibilities together, it is safe to say that a digital revolution is taking place in Radiology. [ABSTRACT FROM AUTHOR]

Published

2006

5. Hierarchical assembly of cell–matrix adhesion complexes

Author

Zaidel-Bar, R., Cohen, M., Addadi, L., and Geiger, B.

Abstract

The adhesion of cells to the extracellular matrix is a dynamic process, mediated by a series of cell-surface and matrix-associated molecules that interact with each other in a spatially and temporally regulated manner. These interactions play a major role in tissue formation, cellular migration and the induction of adhesion-mediated transmembrane signals. In this paper, we show that the formation of matrix adhesions is a hierarchical process, consisting of several sequential molecular events. One of the earliest steps in surface recognition is mediated, in some cells, by a 1 μm-thick cell-surface hyaluronan coat, which precedes the establishment of stable, cytoskeleton-associated adhesions. The earliest forms of these integrin-mediated contacts are dot-shaped FXs (focal complexes), which are formed under the protrusive lamellipodium of migrating cells. These adhesions recruit, sequentially, different anchor proteins that are involved in binding the actin cytoskeleton to the membrane. Conspicuous in its absence from FXs is zyxin, which is recruited to these sites only on retraction of the leading edge and the transformation of the FXs into a focal adhesion. Continuing application of force to focal adhesions results in the formation of fibrillar adhesions and reorganization of the extracellular matrix. The formation of these adhesions depends on actomyosin contractility and matrix pliability.

Published

2004

6. Calculation of Forces at Focal Adhesions from Elastic Substrate Data: The Effect of Localized Force and the Need for Regularization

Author

Schwarz, U.S., Balaban, N.Q., Riveline, D., Bershadsky, A., Geiger, B., and Safran, S.A.

Abstract

Forces exerted by stationary cells have been investigated on the level of single focal adhesions by combining elastic substrates, fluorescence labeling of focal adhesions, and the assumption of localized force when solving the inverse problem of linear elasticity theory. Data simulation confirms that the inverse problem is ill-posed in the presence of noise and shows that in general a regularization scheme is needed to arrive at a reliable force estimate. Spatial and force resolution are restricted by the smoothing action of the elastic kernel, depend on the details of the force and displacement patterns, and are estimated by data simulation. Corrections arising from the spatial distribution of force and from finite substrate size are treated in the framework of a force multipolar expansion. Our method is computationally cheap and could be used to study mechanical activity of cells in real time.

Published

2002

7. Galectin-8 functions as a matricellular modulator of cell adhesion.

Author

Levy, Y, Arbel-Goren, R, Hadari, Y R, Eshhar, S, Ronen, D, Elhanany, E, Geiger, B, and Zick, Y

Abstract

The interaction of cells with the extracellular matrix regulates cell adhesion and motility. Here we demonstrate that different cell types adhere and spread when cultured in serum-free medium on immobilized galectin-8, a mammalian beta-galactoside-binding protein. At maximal doses, galectin-8 is equipotent to fibronectin in promoting cell adhesion and spreading. Cell adhesion to immobilized galectin-8 is mediated by sugar-protein interactions with integrins, and galectin-8 triggers integrin-mediated signaling cascades including Tyr phosphorylation of focal adhesion kinase and paxillin. Cell adhesion is potentiated in the presence of Mn(2+), whereas it is interrupted in the presence of soluble galectin-8, integrin beta(1) inhibitory antibodies, EDTA, or thiodigalactoside but not by RGD peptides. Furthermore, cells readily adhere onto immobilized monoclonal galectin-8 antibodies, which are equipotent to integrin antibodies in promoting cell adhesion. Cell adhesion to immobilized galectin-8 is partially inhibited by serum proteins, suggesting that complex formation between immobilized galectin-8 and serum components generates a matrix that is less supportive of cell adhesion. Accordingly, cell motility on immobilized galectin-8 readily takes place in the presence of serum. Truncation of the C-terminal half of galectin-8, including one of its two carbohydrate recognition domains, largely abolishes its ability to modulate cell adhesion, indicating that both carbohydrate recognition domains are required to maintain a functional form of galectin-8. Collectively, our findings implicate galectin-8 as a physiological modulator of cell adhesion. When immobilized, it functions as a matrix protein equipotent to fibronectin in promoting cell adhesion by ligation and clustering of cell surface integrin receptors. In contrast, when present in excess as a soluble ligand, galectin-8 (like fibronectin) forms a complex with integrins that negatively regulates cell adhesion. Because of its dual effects on the adhesive properties of the cells and its association with fibronectin, galectin-8 might be considered a novel type of matricellular protein.

Published

2001

8. Probing molecular processes in live cells by quantitative multidimensional microscopy

Author

Kam, Z., Zamir, E., and Geiger, B.

Published

2001

9. Study of the variations in length of the anterior cruciate ligament during flexion of the knee: use of a 3D model reconstructed from MRI sections

Author

Boisgard, S., Levai, J. P., Geiger, B., Saidane, K., and Landjerit, B.

Abstract

Abstract The aim of this study is to suggest an anatomic study of the modifications of the length of the anterior cruciate ligament (ACL) and its bundles during flexion with the aid of a 3D computerized model of the knee in a living subject. The method of evaluation suggested is a 3D computerized reconstruction based on MRI sections, reproducing the movement of flexion of the knee from 0 to 75°. Twenty-one sections were made for each of the 13 positions of flexion. The reconstruction of Delaunay and the realignment of each position provided a 3D model which allowed monitoring of a bony point during the movement. By knowing the relative displacement of the ligamentous attachments it was possible to define the biometry of the ligament by calculating the length of the bundles of the ACL in each position and to demonstrate the variations in length during the movement. The mean length of the ligament was 3.4 mm. The anteromedial bundle was longer by 30% compared with the other two bundles. During flexion the anteromedial bundle was not much modified (this feature seems to provide a reference position for a ligamentoplasty), the posterolateral bundle became taut after 30°, and the intermediate bundle relaxed from the beginning of movement. Based on the data from the literature, this method allows an anatomic approach to the ACL, bundle by bundle, during flexion movement.

Published

2000

10. Poor, Abused, and Neglected Children's Prospects in a Fair Society

Author

Geiger, B. and Fischer, M.

Published

1999

11. Molecular diversity of cell-matrix adhesions.

Author

Zamir, E, Katz, B Z, Aota, S, Yamada, K M, Geiger, B, and Kam, Z

Abstract

In this study we have examined for molecular heterogeneity of cell-matrix adhesions and the involvement of actomyosin contractility in the selective recruitment of different plaque proteins. For this purpose, we have developed a novel microscopic approach for molecular morphometry, based on automatic identification of matrix adhesions, followed by quantitative immunofluorescence and morphometric analysis. Particularly informative was fluorescence ratio imaging, comparing the local labeling intensities of different plaque molecules, including vinculin, paxillin, tensin and phosphotyrosine-containing proteins. Ratio imaging revealed considerable molecular heterogeneity between and within adhesion sites. Most striking were the differences between focal contacts, which are vinculin- and paxillin-rich and contain high levels of phosphotyrosine, and fibrillar adhesions, which are tensin-rich and contain little or no phosphotyrosine. Ratio imaging also revealed considerable variability in the molecular substructure of individual focal contacts, pointing to a non-uniform distribution of phosphotyrosine and the different plaque constituents. Studying the quantitative relationships between the various components of the submembrane plaque indicated that the levels of vinculin, paxillin and phosphotyrosine in adhesion sites are positively correlated with each other and negatively correlated with the levels of tensin. Tyrosine phosphorylation of focal contacts was highly sensitive to cellular contractility, and was diminished within 5 minutes after treatment with the kinase inhibitor H-7, an inhibitor of actomyosin contractility. This was followed by the loss of paxillin and vinculin from the focal adhesions. Tensin-rich fibrillar adhesions were relatively insensitive to H-7 treatment. These findings suggest a role for contractility in the generation of matrix adhesion diversity.

Published

1999

12. c-Cbl/Sli-1 regulates endocytic sorting and ubiquitination of the epidermal growth factor receptor.

Author

Levkowitz, G, Waterman, H, Zamir, E, Kam, Z, Oved, S, Langdon, W Y, Beguinot, L, Geiger, B, and Yarden, Y

Abstract

Ligand-induced down-regulation of two growth factor receptors, EGF receptor (ErbB-1) and ErbB-3, correlates with differential ability to recruit c-Cbl, whose invertebrate orthologs are negative regulators of ErbB. We report that ligand-induced degradation of internalized ErbB-1, but not ErbB-3, is mediated by transient mobilization of a minor fraction of c-Cbl into ErbB-1-containing endosomes. This recruitment depends on the receptor's tyrosine kinase activity and an intact carboxy-terminal region. The alternative fate is recycling of internalized ErbBs to the cell surface. Cbl-mediated receptor sorting involves covalent attachment of ubiquitin molecules, and subsequent lysosomal and proteasomal degradation. The oncogenic viral form of Cbl inhibits down-regulation by shunting endocytosed receptors to the recycling pathway. These results reveal an endosomal sorting machinery capable of controlling the fate, and, hence, signaling potency, of growth factor receptors.

Published

1998

13. Different modes of internalization of proteins associated with adhaerens junctions and desmosomes: experimental separation of lateral contacts induces endocytosis of desmosomal plaque material.

Author

Kartenbeck, J., Schmid, E., Franke, W.W., and Geiger, B.

Abstract

The distribution and fate of two junctional complexes, zonula adhaerens and desmosomes, after dissociation of cell‐cell contacts is described in MDBK cells. Junctions were split between adjacent cells by treatment with EGTA and proteins associated with the plaques of zonulae adhaerentes and desmosomes were localized by immunological methods. Splitting of these junctions is accompanied by the dislocation of desmosomal plaque protein from the cell periphery and its distribution in punctate arrays over the whole cytoplasm. By contrast, vinculin associated with zonulae adhaerentes is still seen at early times (0.5‐1 h) in a conspicuous belt‐like structure which, however, is displaced from the plasma membrane. Strong vinculin staining is maintained on leading edges of free cell surfaces. Electron microscopy of EGTA‐treated cells exposed to colloidal gold particles reveals the disappearance of junctional structures from the cell periphery and the concomitant appearance of a distinct class of gold particle‐containing vesicles which are coated by dense plaques. These vesicle plaques react with antibodies to desmosomal plaque proteins and are associated with filaments of the cytokeratin type. In the same cells, extended dense aggregates are seen which are most probably the membrane‐detached vinculin‐rich material from the zonula adhaerens . The experiments show that, upon release from their junction‐mediated connections with adjacent cells, major proteins associated with the cytoplasmic side of the junctions remain, for several hours, clustered within plaques displaced from the cell surface. While plaque material of adhaerens junctions containing vinculin is recovered in large belt‐like aggregates, desmosomal plaque protein remains attached to membrane structures and appears on distinct vesicles endocytotically formed from half‐desmosomal equivalents.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1982

14. A subfamily of relatively large and basic cytokeratin polypeptides as defined by peptide mapping is represented by one or several polypeptides in epithelial cells.

Author

Schiller, D.L., Franke, W.W., and Geiger, B.

Abstract

Epithelial cells contain a class of intermediate‐sized filaments formed by proteins related to epidermal alpha‐keratins (‘cytokeratins’). Different epithelia can express different combinations of cytokeratin polypeptides widely varying in apparent mol. wt. (40 000‐68 000) and isoelectric pH (5.0‐8.5). We have separated, by two‐dimensional gel electrophoresis, cytokeratin polypeptides from various tissues and cultured cells of man, cow, and rodents and examined their relatedness by tryptic peptide mapping. By this method, a subfamily of closely related cytokeratin polypeptides has been identified which comprises the relatively large (greater than or equal to mol. wt. 52 500 in human cells) and basic (pH greater than or equal to 6.0) polypeptides but not the smaller and acidic cytokeratins. In all species examined, the smallest polypeptide of this subfamily is cytokeratin A, which is widespread in many simple epithelia and is the first cytokeratin expressed during embryogenesis. This cytokeratin polypeptide subfamily is represented by at least one member in all epithelial and carcinoma cells examined, indicating that polypeptides of this subfamily serve an important role as tonofilament constitutents . Diverse stratified epithelia and tumours derived therefrom contain two or more polypeptides of this subfamily, and the patterns of expression in different cell types suggest that some polypeptides of this subfamily are specific for certain routes of epithelial differentiation.

Published

1982

15. Detection of a cytokeratin determinant common to diverse epithelial cells by a broadly cross‐reacting monoclonal antibody.

Author

Gigi, O., Geiger, B., Eshhar, Z., Moll, R., Schmid, E., Winter, S., Schiller, D.L., and Franke, W.W.

Abstract

A monoclonal antibody derived from a mouse immunized with bovine epidermal prekeratin has been characterized by its binding to cytoskeletal polypeptides separated by one‐ or two‐dimensional gel electrophoresis and by immunofluorescence microscopy. This antibody (KG 8.13) binds to a determinant present in a large number of human cytokeratin polypeptides, notably some polypeptides (Nos. 1, 5, 6, 7, and 8) of the ‘basic cytokeratin subfamily’ defined by peptide mapping, as well as a few acidic cytokeratins such as the epidermis‐specific cytokeratins Nos. 10 and 11 and the more widespread cytokeratin No. 18. This antibody reacts specifically with a wide variety of epithelial tissues and cultured epithelial cells, in agreement with previous findings that at least one polypeptide of the basic cytokeratin subfamily is present in all normal and neoplastic epithelial cells so far examined. The antibody also reacts with corresponding cytokeratin polypeptides in a broad range of species including man, cow, chick, and amphibia but shows only limited reactivity with only a few rodent cytokeratins. The value of this broad‐range monoclonal antibody, which apparently recognizes a stable cytokeratin determinant ubiquitous in human epithelia, for the immunohistochemical identification of epithelia and carcinomas is discussed.

Published

1982

16. Contact‐dependent regulation of vinculin expression in cultured fibroblasts: a study with vinculin‐specific cDNA probes.

Author

Bendori, R., Salomon, D., and Geiger, B.

Abstract

Vinculin specific cDNA clones were isolated from chicken embryo fibroblast (CEF) cDNA library in lambda gt11. The clones, ranging in size from 2.8 to 5.0 kb, were initially selected by rabbit antibodies to vinculin. Their identity was further confirmed by their specific reactivities with a battery of different vinculin‐specific monoclonal antibodies. Southern blot analysis of restriction enzyme digested chicken spleen DNA suggested that all the isolated cDNA clones correspond to the same gene(s). Northern blot hybridization revealed that the vinculin‐specific cDNA clones react with a single 6.5 kb mRNA in total cellular RNA preparations of CEF, whole chicken embryos and chicken gizzard smooth muscle. Moreover, fractionation of CEF poly(A)+ RNA by sucrose gradient centrifugation followed by translation in cell free system indicated that the mRNA coding for vinculin has a size of about 6.0‐7.0 kb. The identity of these clones was finally confirmed by selection hybridization assay. The isolated vinculin‐specific cDNA probes were subsequently used in order to study the effect of substrate adhesiveness on the expression of vinculin. We show here that cells cultured on highly adhesive substrate, such as endothelial extracellular matrix (ECM), form large vinculin‐rich focal contacts, while cells grown on poorly adhesive substrate poly(2‐hydroxyethyl methacrylate) [poly(HEMA)] contain only small distorted vinculin spots. These morphological differences were accompanied by over 5‐fold reduction in vinculin synthesis in cells growing on poly(HEMA), compared to those cultured on the ECM and over 7.5‐fold decrease in the levels of vinculin‐specific mRNA.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1987

17. A 135‐kd membrane protein of intercellular adherens junctions.

Author

Volk, T. and Geiger, B.

Abstract

We report here on a new 135‐kd membrane protein which is specifically associated with intercellular adherens‐type junctions. This surface component was identified by a monoclonal antibody, ID‐7.2.3, raised against detergent‐extracted components of membranes of chicken cardiac muscle rich in intercalated discs. The antibodies stain extensively adherens junctions in intact cardiac muscle and in lens, as well as in cultured cells derived from these tissues. In living cultured cells only very little immunolabelling was obtained with ID‐7.2.3 antibodies, probably due to the limited accessibility of the antibodies to the intercellular gap. However, upon the removal of extracellular Ca2+ ions a dissociation of the junction occurred, leading to the rapid exposure of the 135‐kd protein. Immunoelectron microscopic labelling of EGTA‐treated, or detergent‐permeabilized cells indicated that the antigen is found along the plasma membrane and highly enriched in contact areas. Double immunolabelling for both the 135‐kd protein and vinculin pointed to the close association of the two in intercellular junctions and to the apparent absence of the former protein from the vinculin‐rich focal contacts of cultured cells and from dense plaque of smooth muscle. Immunoblotting indicated that the 135‐kd protein is present in many tissues but is particularly enriched in heart, lens and brain.

Published

1984

18. The effect of tyrosine‐specific protein phosphorylation on the assembly of adherens‐type junctions.

Author

Volberg, T., Zick, Y., Dror, R., Sabanay, I., Gilon, C., Levitzki, A., and Geiger, B.

Abstract

Adherens‐type junctions (AJs) are major subcellular targets for tyrosine specific protein phosphorylation [Volberg et al. (1991) Cell Regul., 2, 105–120]. Here we report on the apparent effect of such phosphorylation events on the assembly and integrity of AJs. We show that incubation of MDCK cells with potent inhibitors of tyrosine‐specific phosphatases (PTP), namely H2O2 and vanadate, leads to a dramatic increase in AJ‐associated phosphotyrosine which was apparent already within 2–5 min of treatment and progressed upon further incubation. Examination of H2O2 vanadate treated cells at later time points indicated that intercellular AJs rapidly deteriorated, concomitantly with a marked increase in the number and size of vinculin and actin containing focal contacts. In parallel, major changes were observed in cell structure and topology, as revealed by electron microscopy. These were manifested by rapid rounding‐up of the cells followed by reorganization of the cell monolayer. Other intercellular junctions, including desmosomes and tight junctions, visualized by staining with desmoplakin and ZO‐I antibodies, were not significantly affected. To verify that modulation of AJs was indeed related to tyrosine phosphorylation, we have carried out reciprocal experiments in which Rovs Sarcoma virus (RSV) transformed chick lens cells, expressing high levels of pp60src kinase, were treated with inhibitors of tyrosine kinases, (tyrphostins). We show that following such treatment, intercellular AJs which were deteriorated in the transformed cells, were reformed. Based on these observations, we propose that specific tyrosine phosphorylation of AJ components is involved in the downregulation of these cellular contacts.

Published

1992

19. The involvement of adherens junction components in myofibrillogenesis in cultured cardiac myocytes.

Author

Goncharova, E J, Kam, Z, and Geiger, B

Abstract

The distribution of adherens junction (AJ) components was investigated in cultured heart myocytes. These cells, derived from either newborn rats or chick embryos, develop elaborate arrays of myofibrils which become extensive and laterally aligned following several days in culture. The Z-disks in these cells, visualized by immunolabeling with antibodies to muscle-specific alpha-actinin, exhibit a characteristic periodicity of about 2 microns and are in register with those of neighboring myofibrils throughout the sarcoplasm. Vinculin, in these cells, associates with intercellular AJ and cell-matrix adhesions. In addition, this protein is detected in periodic bands located along the lateral cell membranes corresponding to "costamers" previously described by Pardo, J.V., Siliciano, J.D. and Craig, S.W. (Proc. Natn. Acad. Sci. USA, 80, 1008). Similarly, N-cadherin, which is predominantly associated with intercellular junctions, is also detected in periodic striations located mainly on the dorsal and lateral cell surfaces. Using computer-aided three-dimensional microscopy confirmed that these vinculin- and N-cadherin-containing structures are located in extrajunctional sites, apparently associated with Z-disks of peripheral myofibrils. Based on these findings an alternative pathway is proposed for the assembly of vinculin and N-cadherin, which is not triggered by adhesive interactions with extracellular surfaces but rather by interactions at the membrane-cytoplasm interphase with the periphery of the pre-assembled myofibrils. Moreover, we present evidence that antibodies to N-cadherin, which are capable of blocking AJ formation in culture, have an inhibitory effect also on the development and alignment of myofibrils. We discuss the functional significance of the "costameric" organization of vinculin and N-cadherin and consider its involvement both in the lateral alignment of neighboring muscle cells and in the stabilization of developing myofibrils.

Published

1992

20. Cadherins

Author

Geiger, B and Ayalon, O

Published

1992

21. Enzyme replacement in TaySachs disease

Author

Specht, B. U. von, Geiger, B., Arnon, R., Passwell, J., Keren, G., Goldman, B., and Padeh, B.

Abstract

Enzyme replacement therapy was attempted with two Tay-Sachs-diseased individuals—a 14- month-old child and a 7-week-old infant. Treatment consisted of repeated weekly intrathecal injections of pure hexosaminidase A. Injection of this enzyme resulted in almost complete disappearance of GM2 from the serum, but did not bring about dissolution of the GM2 membranous cytoplasmic bodies in the brain, as detected by electronmicroscopy. Both patients tolerated the treatment without apparent clinical complications, but no clear-cut improvement was noted as a result of prolonged injections of hexosaminidase A. Since this treatment was initiated in both an advanced stage and a very early stage of the disease, we conclude that enzyme replacement treatment by this route is not beneficial for patients with Tay-Sachs disease.

Published

1979

22. Contact‐dependent regulation of vinculin expression in cultured fibroblasts: a study with vinculin‐specific cDNA probes.

Author

Bendori, R., Salomon, D., and Geiger, B.

Abstract

Vinculin specific cDNA clones were isolated from chicken embryo fibroblast (CEF) cDNA library in lambda gt11. The clones, ranging in size from 2.8 to 5.0 kb, were initially selected by rabbit antibodies to vinculin. Their identity was further confirmed by their specific reactivities with a battery of different vinculin‐specific monoclonal antibodies. Southern blot analysis of restriction enzyme digested chicken spleen DNA suggested that all the isolated cDNA clones correspond to the same gene(s). Northern blot hybridization revealed that the vinculin‐specific cDNA clones react with a single 6.5 kb mRNA in total cellular RNA preparations of CEF, whole chicken embryos and chicken gizzard smooth muscle. Moreover, fractionation of CEF poly(A)+ RNA by sucrose gradient centrifugation followed by translation in cell free system indicated that the mRNA coding for vinculin has a size of about 6.0‐7.0 kb. The identity of these clones was finally confirmed by selection hybridization assay. The isolated vinculin‐specific cDNA probes were subsequently used in order to study the effect of substrate adhesiveness on the expression of vinculin. We show here that cells cultured on highly adhesive substrate, such as endothelial extracellular matrix (ECM), form large vinculin‐rich focal contacts, while cells grown on poorly adhesive substrate poly(2‐hydroxyethyl methacrylate) [poly(HEMA)] contain only small distorted vinculin spots. These morphological differences were accompanied by over 5‐fold reduction in vinculin synthesis in cells growing on poly(HEMA), compared to those cultured on the ECM and over 7.5‐fold decrease in the levels of vinculin‐specific mRNA.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1987

23. Association of microtubules and intermediate filaments in chicken gizzard cells as detected by double immunofluorescence.

Author

Geiger, B and Singer, S J

Abstract

By double indirect immunofluorescence, using guinea pig and rabbit antibodies to tubulin and to desmin, we have simultaneously labeled microtubules and intermediate filaments in cultured chicken embryo gizzard cells. At the resolution of the light microscope there was extensive but not complete superposition of the labeling patterns for the two filamentous structures within cells in interphase and an essentially complete dissociation of the two labeling patterns in cells in mitosis. These results indicate that there is an extensive association of microtubules and intermediate filaments in these interphase muscle cells and suggest that this association is regulated metabolically.

Published

1980

24. Long-range and selective autoregulation of cell-cell or cell-matrix adhesions by cadherin or integrin ligands.

Author

Levenberg, S, Katz, B Z, Yamada, K M, and Geiger, B

Abstract

In this study we demonstrate that local stimulation of cell surface cadherins or integrins induces a selective enhancement of adherens junction or focal contact assembly, respectively, throughout the cell. N-cadherin transfected CHO cells (CHO-Ncad) were incubated with different ligands including N-cadherin extracellular domain (NEC), anti-N-cadherin antibodies, fibronectin and concanavalin A (ConA), conjugated to synthetic beads. Electron microscopic examination indicated that both cadherin- and integrin-reactive beads bound tightly to the cell surface and were apparently endocytosed after several hours of incubation. The ConA-beads remained largely at the cell surface. Immunofluorescence labeling of the cells with antibodies to different adhesion-associated molecules indicated that both NEC- and anti-N-cadherin-conjugated beads induced a major increase in the level of junction-associated cadherin and beta-catenin labeling and a modest increase in junctional vinculin labeling, compared to untreated cells or cells bound to ConA-beads. FN-conjugated beads, on the other hand, significantly enhanced vinculin labeling at focal contacts and suppressed cadherin and beta-catenin staining in cell-cell junctions. The cadherin-reactive beads specifically stimulated tyrosine phosphorylation at cell-cell junctions, while the FN-beads increased the levels of focal contact-associated phosphotyrosine, as shown by immunofluorescence labeling of the cells for phosphotyrosine. Inhibition of this phosphorylation by genistein resulted in a complete suppression of the effects of both types of beads. These findings indicate that specific cadherin- and integrin-mediated surface interactions can trigger positively cooperative long-range signaling events which lead to the selective assembly of cell-cell or cell-matrix adhesions, and that these signals involve tyrosine phosphorylation.

Published

1998

25. Restricted mobility of membrane constituents in cell-substrate focal contacts of chicken fibroblasts.

Author

Geiger, B, Avnur, Z, and Schlessinger, J

Abstract

We studied the lateral mobility of membrane components in cell-substrate focal contacts using the fluorescence photobleaching recovery method. The measurements were performed on isolated substrate-attached membranes of chicken gizzard fibroblasts. The diffusion coefficients of a fluorescent lipid probe and rhodamine-conjugated surface proteins within contact regions (identified by interference-reflection microscopy) were significantly lower than those measured in nonattached areas along the ventral membrane. Complete recovery of fluorescence after photobleaching of the lipid probe was measured both in focal contacts and in nonattached areas with lateral diffusion coefficient (D) of approximately 10(-8) cm2/s. This indicated that the lipid probe is free to diffuse from and into the contact regions. Rhodamine-labeled surface components (mostly proteins) exhibited almost complete recovery after bleaching (approximately 90%) in unattached regions of the ventral membrane with D congruent to 10(-9 cm2/s. The rhodamine-labeled proteins in focal contacts showed only partial recovery (approximately 50%), suggesting that large proportion of the membrane proteins in cell-substrate contacts are immobile (within the time scale of the experiments, D less than or equal to 5 x 10(-12) cm2/s. The implications of these findings on the molecular dynamics of cell contacts are discussed.

Published

1982

26. Abstract of the 68th Meeting (Spring Meeting) 6–9 March 1990, Heidelberg

Author

Sakmann, B., Schrader, J., Brenner, B., Murer, H., Boeckh, J., Handwerker, H. O., HonerjÄger, P., Dugas, M., Wang, G., DeLuca, A., Brinkmeier, H., Fakler, B., Pröbstle, T., Rüdel, R., Pohl, J. -A., Meves, H., Kroll, B., Bremer, S., Tümmler, B., Frömter, E., Schwegler, J. S., Steigner, W., Silbernagl, S., Pusch, Michael, Niemann, P., Schmidtmayer, J., Ulbricht, W., Hansen, G., Lönnendonker, U., Neumcke, B., Eickhorn, R., Hornung, D., Antoni, H., Penner, R., Neher, E., Takeshima, H., Nishimura, S., Numa, S., Melzer, W., Feldmeyer, D., Pohl, B., Zöllner, P., Müller, T. H., Swandulla, D., Misgeld, U, Ganitkevich, V. Ya., Isenberg, G., Cavalié, A., Allen, T. J. A., Trautwein, W., Pelzer, Siegried, Shuba, Yaroslav M., Asai, Tatsuya, Trautwein, Wolfgang, Brown, Arthur M., Birnbauner, Lutz, McDonald, Terence F., Pelzer, Dieter, Eckert, R., Hescheler, J., Rosenthal, W., Offermann, S., Krautwurst, D., Schultz, G., Kettenmahn, Helmut, Trotter, J., Verkhratsky, Alexe J N., Savtchenko, Alexej N., Verkhratsky, Alexej N., Schiefer, A., Klöckner, U., Partridge, L. D., SchÄfer, S., Jonas, P., Koh, D. S., Kampe, K., Hermsteiner, M., Vogel, W., Bauer, C. K., Schwarz, J. R., Fink, R. H. A., Wettwer, E., Weik, R., Schlatter, E., Bleich, M., Granitzer, M., Leal, T., Nagel, W., Crabbé, J., Lang, F., Kahn, E., Friedrich, F., Paulmichl, M., Hammerer, M., Maly, K., Grunicke, H., Böhm, T., Nilius, B., Gögelein, H., Dahlem, D., Weiss, H., Waldegger, S., Woell, E., Paulmichl, R., Ruppersberg, J. P., Schröter, K. H., Stocker, M., Pongs, O., Wittka, R., Boheim, G., Lichtinghagen, R, Augustine, C. K., Stühmer, W., Hoppe, Dorothe, Hoppe, D., Zittlau, K. E., Walther, C., Hatt, H., Franke, C., Quasthoff, S., Wischmeyer, E., Jockusch, H., Friedrich, M., Benndorf, K., Bollmann, G., Hirche, Hj., Hollunder-Reese, F., Mohrmann, M., Greger, R., Weber-Schürholz, S., Schürholz, T., Akabas, M., Landry, D., Al-Awqati, Q., Guse, A. H., Gercken, G., Meyerhof, W., Westphale, H. -J., Kerstins, U., Oberleithner, H., Tilmann, M., Kunzelmann, K., Klitsch, T., Siemen, D., Draguhn, A., Verdoorn, T. A., Pritchett, D. B., Seeburg, P. H., Malherbe, P., Möhler, H., Sakmann, B., Hatt, H., Dudel, J., Stern, P., Zufall, F., Rosenheimer, J., Smith, D. O., Dörner, R., Ballanyi, K., Schlue, W. -R., Kalthof, B., Pott, L., Busch, C., Konno, T., Stenql, M., Reinhardt, Ch., Kaiser, H., Baumann, R., Wilimzig, M., Eichenlaub, R., Neumann, E., Lessmann, V., Gottmann, K., Dietzel, I. D., Keller, B. U., Yaari, Y., Konnerth, A., Backus, K. H., Giller, T., Knoflach, F., Pflimlin, P., Trübe, G., von Blankenfeld, G., Ymer, S., Sontheimer, H., Ewert, M., Seeburg, P. H., Kettenmann, H., Schneggenburger, R., Paschke, D., Hülser, D. F., Ubl, J., Kolb, H. A., Ströttchen, J., Boheim, S., Wehner, F., Guth, D., Kinne, R. K. H., Hülser, D. F., Polder, H. R., Bödeker, D., Hoppe, Susanne, Höller, H., Hampe, W., Ruf, H., Schulz, I., Dehlinger-Kremer, M., Ozawa, T., Vasilets, L., Schmalzing, G., MÄdefessel, K., Biel, H., Schwarz, W., Burckhardt, B. C., Stallmach, N., MairbÄurl, H., Hoffman, J. F., Schömig, E., Heuner, A., Göbel, B. O., Siffert, W., Butke, A., Hoffmann, G., zu Brickwedde, M. -K. Meyer, Vetter, H., Düsing, R., Rosskopf, D., Osswald, U., Steffgen, J., Koepsell, H., Martens, H., Rübbelke, M., GÄbel, G., Arens, J., Stabel, J., Fischer, Y., Thomas, J., Rose, H., Kammermeier, H., Munsch, Thomas, Deitmer, Joachim W., Engelmann, B., Duhm, J., Deitmer, Joachim W., Gunzel, D., Galler, S., Fischer, H., Clauss, W., Van Driessche, W., Köckerling, A, Schulzke, JD, Sorgenfrei, D, Fromm, M, Simon, B., Ganapathy, V., Leibach, F. H., Burckhardt, G., Krattenmacher, R., Voigt, Rosita, Dietrich, S., Leyssens, A., Zhang, S. L., Weltens, R., Steels, P., Hoffmann, B., Heinz, M., Habura, B., Dörge, A., Rechkemmer, G., von Engelhardt, W., StrauB, O., Wiederholt, M., Margineanu, D. -G., Van Driessche, W., Kreusel, K. M., Fromm, M., Lempart, U., Sorgenfrei, D., Hegel, U., Augustin, A. J., . Goldstein, R., Purucker, E., Lutz, J., Illek, B., Thiele, K -P., Schwealer, JS., Dittmer, J., Bauer, C., Eckardt, K. -U., Dittmer, J., Neumann, R., Bauer, C., Kurtz, A., Fromm, H., Schulzke, J. D., Clausen, P., Krohn, A., Lüderitz, S., Hierholzer, K., Kersting, U., Woinowski, L., Gro\mann, R., Bin, X. U., Ellendorff, F., Nitschke, R., Fröbe, U., Scholz, H., della Bruna, R., Ehmke, H., Persson, P. B., Seyfarth, M., Kirchheim, H. R., Dietrich, M. S., Parekh, N., Steinhausen, M., Bührle, C. P., Nobiling, R., Ullrich, K. J., Rumrich, G., Klöss, S., Papavassiliou, F., Hoyer, J., Schmitt, C., Jungwirth, A., Ritter, M., Westphale, H. J., Bevan, C., Theiss, C., Denek, Liliana, Schwegler, Johann S., SchÄfer, Roland, Augustin, Albert J., Heidland, August, Nafz, B., Just, A., Steidl, M., Pinggera, G., Gerstberger, R., Schütz, H., Simon, E., Lohrmann, E., Masereel, B., Delarge, J., Lang, H. J., Englert, H. C., Caliebe, D., Mályusz, M., Wrigge, P., Gronow, G., Klause, N., Mályusz, M., Zinnert, H., Fagel, H., Jelkmann, W., Weiss, Ch., Augustin, A. J., Keil, R., Schmidt, W., Kröger, C., Brabant, E. G., Hilgendorf, A., Strauch, S., Lane, F., Prick, A., Golenhofen, N., Mildenberger, S., Schwegler, J. S., Flemming, B., Roloff, D., Wronski, T., Drews, G., Debuyser, A., Henquin, J. C., Jackson, M. B., DeRiemer, S. A., Schmid, A., Schnefel, S., Pröfrock, A., Hinsch, K. -D., Milz, J., Lamprecht, G., Seidler, U., Silen, W., Aziz, O., Reschke, W., Fischer, G., De Decker, N., Hayes, T., Coast, G., Van Kerkhove, E., von zur Mühlen, F., Eckstein, F., Hegel, U, Bentzel, CJ, Riecken, EO, Siemer, C., Rothenpieler, P., Smith, E., Lutnicki, K. R., Wróbel, J. T., Ledwożyw, A., PietraŚ, E., Sender, S., Jürgens, Klaus D., Kleinschmidt, T., Werkmeister, F., Kiwull-Schöne, H., Kiwull, P., Vahle, J., Ott, M., Zimmermann, R. E., Elsing, J. G., Million, D., Zillner, P., Thiel, M., Bardenheuer, H., Peter, K., Fandrey, J., Siegers, C. P., Rupp, H., Elimban, V., Dhalla, N. S., Morano, I., Agostini, B., Mühleisen, M., Mommaerts, W. F. H. M., Ono, K., Wussling, M., Schenk, W., Boldt, W., Lipp, P., Schüttler, K., Szymanski, G., Wendt-Gallitelli, M. F., Herzig, J. W., Depersin, H., Grupp, G., Grupp, I., Glitsch, H. G., Pusch, H., Zylka, Ch., Brāndle, M., Jacob, R., Stein, T., Isselhard, W., Sturz, J., Minor, T., Wingenfeld, P., Siegmund, B., Klietz, T., Schwartz, P., Piper, H. M., Linder, Christa, SchÄfer, Stefan, Heusch, Gerd, Becker, B. F., Reinholz, N., Raschke, P., Leipert, B., Gerlach, E., Dierberger, B., Gülch, R. W., Leverkus, M., Mitsuiye, T., Pohl, U., Wang, S. Y., Meyer, R., Haas, H. G., Christmann, H. Ph, Dörner, Th, Hock, D., Hertel, R., Gagelmann, M., Forssmann, W. G., Leijendekker, W. J., Kissling, G., Michel, H., Goetz, A., Freya, M., Fleckenstein-Grün, G., Schipke, Jochen D., Harasawa, Yasuhiko, Sugiura, Seiryo, Alexander, Joe, Burkhoff, Daniel, Kling, L., Müller-Beckmann, B., Schroth, M., Sponer, G., Böhm, E., Strein, K., Dorszewski, A., Arnold, G., Pike, G. K., Bryant, D. J., Roberts, M. L., Fink, R. H., Ross, Ch., Skyschally, A., Schulz, R., Linder, C., Heusch, G., Schipke, J. D., Burkhoff, D., Alexander, J., Gollnick, F., Peter, Kh., Franken-Weyers, R., Borst, M. M., Deussen, A., Pöpping, S., Hose, H., Strotmann, K. H., Lukascek, B., Karnath, T., Güttier, K., Klaus, W., Haverkampf, K., Guhlmann, M., Schmidt-Ott, S., Heuschen, U., Mall, G., Pfitzer, G., Rösch, J., Arner, A., Rüegg, J. C., Kröger, K., Schipke, J. D., ThÄmer, V., Ehring, Thomas, ThÄmer, Volker, Guth, B. D., Schnabel, Ph A., Schmiedl, A., Gebhard, M. M., Richter, J., Bretschneider, H. J., Guth, B. D., Oudiz, R. J., Schnabel, Ph., Richter, J ., Watanabe, H., Spahr, R., Piper, H. M., Obst, O., Mertens, H., Mülsch, A., Busse, R., Lamontagne, D., Herlan, K., Huang, A., Bassenae, E., Mackert, J. R. L., Schilling, L., Parsons, A. A., Wahl, M., Hock, D., Christmann, M. Ph., Thimm, F., Frey, M., Fleckenstein, a. A., Theilen, H., Göbel, U., Kuschinsky, W., Elbert, Th., Tafil-Klawe, M., Rau, H., Lutzenberger, W., Fleckenstein, A., Forst, H., Haller, M., Santjohanser, C., Lauterjung, L., Smieško, Y., Lang, D. J., Johnson, P. C., Schröck, H., Rau, H., Elbert, T., Geiger, B, Lutzenberger, W., Koch, G., Koralewski, H. E., Perschel, F. H., Wagner, K., Krüger, U., Albrecht, M., Hohlbach, G., Maassen, N., Foerster, M., Mühling, J., Bari, F., Pleschka, K., Schmidt, H. D., Gro\, H., Loock, W., Stick, C., Diefenbacher, U., Gronewold, D., Tobinsky, M., Walther-Behrends, A., Witzleb, E., Brummermann, M., Reinertsen, R. E., Rogausch, H., Rohn, W. M., Acker, H., Delpiano, M., Dufau, E., Hentschel, J., Heller, H., Schuster, K. -D., Siekmeier, R., Kronenberger, H., Lintl, H., Schiller-Scotland, Ch. F., Gebhart, J., Heyder, J., Meier-Sydow, J., Stahlhofen, W., Mottaghy, K., Geisen, C., Richter, W., Beckman, J., Marek, W., Ulmer, W. T., Thiele, A. E., Raschke, F., Peter, J. H., Hildebrandt, G., Kullmer, T., Kozianka-Burghof, G., Thiele, A. E., Schlaefke, M. E., Gnuschke, H., Schaefer, T., Schaefer, D., Schaefer, C., Bradley, Ronald J., Sterz, Raimund, Peper, Klaus, Benterbusch, R., Kraft, Th., Yu, L. C., Kuhn, H. J., Blankenbach, K., Asmussen, G., Kunze, I., Pieper, K. -S., Steinmetz, J., Schmidt, H., Krippeit-Drews, P., Hübschen, U., Nacimiento, A. C., Günzel, D., Rathmayer, W., Gaunitz, U., Költgen, D., Zachar, E., Soltau, B., De Martino, L., Hasselbach, W., Kössler, F., Lange, P., Küchler, G., Zeugner, C., Van Eyk, J., Hodges, R. S., Lorkovic, H., Clemens, N., Scheid, P., Noack, Th., Deitmer, P., Golenhofen, K., Lammel, E., Welling, Andrea, Felbel, Jochen, Hofmann, Franz, Katoch, S., Watanabe, T., Mandrek, K., Milenov, K., Hammer, K., Rössler, W., Sann, H., Pierau, Fr -K., Nguyen-Duong, H., Schneider, P., Stahl, F., Lepple-Wienhues, A., Korbmacher, C., Haller, H., Gebauer, M., Willner, U., Bialojan, C., Lengsfeld, M., Kyrtatas, V., Dartsch, Peter C., Boels, P. J., Fischer, W., Lenz, T., Thei\, U., Kreye, V. A. W., Ohkubo, T., Kupp, H., Vonderlage, M., Schreiner, V., Dorlöchter, M., Brinkers, M., Irintchev, A., Wernig, A., Langenfeld, B., Finger, W., Wolburg, H., Beer, A., Schwejda, Ch., Scheller, D., Heister, U., Tegtmeier, F., Knöpfel, Thomas, Spuler, Andreas, Grafe, Peter, GÄhwiler, Beat, Bijak, M., Misgeld, U., Müller, W., Rausche, G., Leweke, F M., Bingmann, D., Moraidis, I., Speckmann, E. -J., Madeja, M., Mu\hoff, U., Lehmenkühler, A, Kuhlmann, D., Hans, M., Lux, H. D., StrÄub, H., Waiden, J., Baker, R. E., Grantyn, R., Perouansky, M., Kraszewski, K, Lehmenkühler, Chr, Dodt, H. U., ZieglgÄnsberger, W., Pawelzik, H., ZieglgÄngsberger, W., Mann, K., Wiethölter, H., Albrecht, D., Dreier, J., Ficker, E., Beck, H., Corrette, B J., Dreyer, F., Repp, H., Dreessen, J., Augustine, G. J., Lehmenkühler, A., Büsselberg, D., Heimrich, B., Haas, H. L., Birnstiel, S., Haas, H. L., Schönrock, B., Altrup, U., Reith, H., Speckmann, E. -J., Alzheimer, C., Bruagencate, G. ten, Fruhstorfer, B., Mignot, E., Nishino, S., Dement, W. C., Guilleminault, C., Simon-Oppermann, Christa, Günther, Olaf, Stehle, J., Reuss, S., Seidel, A., Riemann, R., Vollrath, L., Reimer, Susanne, HölIt, Volker, Sonnhof, U., Krupp, J., Claus, H, Hinckel, P., Dick, H. B. H., Hiemke, C., Jussofie, A., Dorn, T., Uhlig, S., Witte, O. W., Bother, B., Eiselt, M., Witte, H., Zwiener, ö, Rother, M, Eiseit, H., Taghavy, A., KrÄtzer, A., Clusmann, H., Heinemann, U., Block, F., Sonatg, K. -H., Falkeristein, M., Hohnsbein, J., Hoormann, J., Frieling, A., Tarkka, I. M., Kullmann, W., Bromm, B., Hirsch, M. Chr, Wissing, H., Braun, H. A., Igelmund, P., Klu\mann, F. W., Ehrenstein, W. H., Yakimoff, N., Mateeff, S., Zeise, M. L., Arriagada, J., Teschemacher, A., ZieglgÄnsberger, W., Pöppelmann, T., Köhling, R., Boerrigter, P., Reith, H., Anders, K., Ohndorf, W., Dermietzel, R., Richter, D. W., Tölle, T. R., Castro-Lopes, J. M., Neuropharmakologie, Klinische, Sandkühler, J., Leah, J. D., Herdegen, T., Zimmermann, M., Vaitl, D., Gnippe, H., Herbert, M. K., Mengel, M. K. C., Kniffki, K. -D., Linke, R., Vahle-Hinz, C., Schenda, J., Matsumura, K., Herdegen, T., fu, Q. -G., Forster, C., Hutchison, W. D., Morton, C. R., Aschoff, J., Wilhelm, Z., Schwarzacher, S. W., Wasserschaff, M, Hörner, M., Kümmel, H., Windhorst, U., Feldman, J. L., Schmid, K., Foutz, A. S., Denavit-Saubié, M., Pak, M. A., Wehling, P., Evans, C., Bandara, G., Awiszus, F., Feistner, H., Heinze, H. -J., Illert, M., Wasserschaff, M., Kleinebeckel, D., Böhmer, G., Schauer, W., Abel, H. -H., Klü\endorf, D., Koepchen, H. P., Jarolimek, W, König, St, Czachurski, J., Seller, H., Meckler, R. L., McLachlan, E. M., Boczek-Funcke, A., HÄbler, H. -J., JÄnig, W., Michaelis, M., Dembowsky, K., Königr, S., Rau, Harald, HÄbler, H. -J., Unger, M., Merker, G., Roth, J., Zeisberger, E., Gao, H., Hunold, M., Kirchner, F., Takano, K., Schulze, K., Pokorski, M., Sakakibara, Y., Masuda, A., Morikawa, T., Ahn, B., Takaishi, S., Paulev, P. -E., Honda, Y., Flügge, G., Fuchs, E., König, S., Eysel, U. Th., Schmidt-Kastner, R., Skrandies, W., Geib, T., Baumann, C., Schmidt, K. -F., Knapp, A. G., Dowling, J. E., Kuba, M., Toyonaga, N., Kubová, Z., Ehrenstein, W. H., Jacobi, P., Schmidt, K. -F., Nöll, G. N., Baumann, Ch., Tabata, M., Martin, Ch., Meissl, H., Knottenberg, Th., Scheibner, H., Zenner, Hans P., Zimmennann, Ulrike, Gitter, Alfred H., Ding, D., Smolders, J. W. T., Klinke, R., Boekhoff, I., Raming, K., Krieger, J., Tareilus, E., Strotinann, J., Breer, H., Schild, D., DeSimone, J. A., Hellwig, S., Gitter, A. H., Plinkert, P. K., Zenner, H. P., Koltzenbwg, M., Pinter, E., SchÄfer, K., Braun, H. A., Necker, R., Hanesch, U., Heppelmann, B., Schmidt, R. F., Mense, S., Hoheisel, U., Steen, K. H., Anton, F., Reek, P. W., Handwerker, H. O., Lewin, G. R., McMahon, S. B., Heyer, G., Hornstein, O. P., Klement, W., Arndt, J. O., Maeerl, W., GrÄmer, G., Schepelmann, K., Me\linger, K., Schaible, H. -G., Treede, R. D., Meyer, R. A., Campbell, J. N., Claus, D., Neundörfer, B., Ernst, R., Tick-Waider, A. M., Bretschneider, F., Peters, R. C., Tennis, P. F. M., Teunis, P. F. M., Hoheisel, D., Scherotzke, R., Bub, A., Manzl, G., Forssmann, W. G., Jessen, C., Nuesslein, B., Schmidt, I., Wetzig, J., Reiser, M., Bregenzer, N., von Baumgarten, R. J., Mohr, E., Krzywanek, H., Warncke, G., Schuchmann, K. -L., Linow, H., Klu\mann, F. H., Redlin, U., Heldmaier, G., Bamler, A, Koller, A., Felber, S., Haid, C., Wicke, K., Raas, E., Xuemin, Wang, Kerning, Chen, Ying, Shi, Hanping, Shi, Warncke, Günther, Voisord, R., Dortsch, P. C., Betz, E., Karbach, U., Walenta, S., Gross, M. W., Mueller-Klieser, W., Vaupel, P., Okunieff, P., Mayer, W. -K., Stohrer, M., Krüger, W., Müller-Klieser, W., Strupp, M., Weial, P., Bostock, H., Piwernetz, K., Renner, R., Grafe, P., Lankers, J., Zangemeister, W., Kunze, K., Tries, S., Heinle, H., Beckerath, N. V., Maier-Rudolph, W., Mehrke, G., Günther, K., Goedel-Meinen, L., Daut, J., Piper, H. M., Kopp, A., Noll, T., Goellner, A., Gerlach, S., Teutsch, H. F., Schienger, K., Schwab, R., Höckel, M., Fotev, Z., Nienhaus, M., Kaczmarczyk, Gabriele, Richter, Dinah, Korte, Gabriele, Förther, J., Reinhardt, H. W., Schreiber, R., Rupp, J., Murphy, G., Fingerle, J., Kloiber, O., Miyazawa, T., Höhn-Berlage, M., Hossmann, K. -A., Schad, H., Heimisch, W., Blasini, R., Haas, F., Mendier, M., Spuler, A., Lehmann-Hom, F., Wolfram, U., Fenske, M., Sachser, N., Weis, Ch., Marktl, W., Kopta, B., Klammer, N., Rudas, B., Pohl, H., Nienartowicz, A., Moll, W., Klempt, M., Blum, S., Bühler, H., Lichtenstein, I., Novak, A., Siebe, H., Hierholzer, K., and Peper, K.

Published

1990

27. Selective interactions of cells with crystal surfaces. Implications for the mechanism of cell adhesion.

Author

Hanein, D, Sabanay, H, Addadi, L, and Geiger, B

Abstract

In this study we have characterized the mode of cell adhesion to calcite and calcium (R,R)-tartrate tetrahydrate crystals. The use of crystals as adhesion substrata was motivated by their well-established chemical nature and structurally defined surfaces. We show that calcite binds A6 Xenopus laevis epithelial cells rapidly and efficiently, most likely via surface-adsorbed proteins. Surface topology had only a limited effect on the adhesive interactions. Calcium (R,R)-tartrate tetrahydrate crystals exhibits two chemically equivalent, yet structurally distinct faces that differ mainly in the surface distribution of their lattice water molecules and charges. However, despite the gross similarity between the two faces striking differences were noted in their adhesive behavior. One of the faces was highly adhesive for cells, leading to protein-independent attachment and spreading followed by cell death. In contrast, cell adhesion to the other surface of tartrate was slow (> 24 h) and apparently mediated by RGD-containing protein(s). It was further shown that the latter face of tartrate crystals could be "conditioned" by long (24 h) incubation with serum-containing medium, after which it becomes highly adhesive. The results presented here indicate that crystal surfaces may serve as excellent, structurally defined, substrata for cell adhesion, that cell binding may occur directly or via RGD-containing proteins and that cell adhesion may be dramatically modulated by variations in surface structure. The implications of the results to the mechanism of cell-substratum adhesion are discussed.

Published

1993

28. Carbohydrate composition of human placental N-acetylhexosaminidase A and B

Author

Freeze, H, Geiger, B, and Miller, A L

Abstract

The carbohydrate composition of N-acetyl-beta-D-hexosaminidases (EC 3.2.1.52) A, B and heat-converted B was determined by g.l.c. Similar quantities of mannose, N-acetyl-glucosamine and galactose are present in the A and B isoenzymes, whereas N-acetyl-neuraminic acid is found in significant amount in only the A isoenzyme. The heat-converted hexosaminidase B also contains only trace amounts of N-acetylneuraminic acid, but is about 1.5-fold richer in mannose and N-acetylglucosamine and nearly 2-fold richer in galactose than native hexosaminidase B. Since native and converted hexosaminidase B are thought to be composed of four identical protein chains, our results suggest that there may be variable glycosylation of these chains.

Published

1979

29. Alternative intracellular routing of ErbB receptors may determine signaling potency.

Author

Waterman, H, Sabanai, I, Geiger, B, and Yarden, Y

Abstract

The ErbB signaling module consists of four receptor tyrosine kinases and several dozen ligands that activate specific homo- and heterodimeric complexes of ErbB proteins. Combinatorial ligand/receptor/effector interactions allow large potential for signal diversification. Here we addressed the possibility that turn-off mechanisms enhance the diversification potential. Concentrating on ErbB-1 and two of its ligands, epidermal growth factor (EGF) and transforming growth factor alpha (TGF-alpha), and the Neu differentiation factor (NDF/neuregulin) and one of its receptors, ErbB-3, we show that ligand binding variably accelerates endocytosis of the respective ligand-receptor complex. However, unlike the EGF-activated ErbB-1, which is destined primarily to degradation in lysosomes, NDF and TGF-alpha direct their receptors to recycling, probably because these ligands dissociate from their receptors earlier along the endocytic pathway. In the case of NDF, structural, as well as biochemical, analyses imply that ligand degradation occurs at a relatively late endosomal stage. Attenuation of receptor down-regulation by this mechanism apparently confers to both NDF and TGF-alpha more potent and prolonged signaling activity. In conclusion, alternative endocytic trafficking of ligand-ErbB complexes may tune and diversify signal transduction by EGF family ligands.

Published

1998

30. Expression of a novel cadherin (EP-cadherin) in unfertilized eggs and early Xenopus embryos

Author

Ginsberg, D., DeSimone, D., and Geiger, B.

Abstract

Two distinct cadherin cDNA clones of Xenopus laevis were isolated from a stage 17 embryo cDNA library. Analysis of the complete deduced amino acid sequences indicated that one of these molecules is closely homologous to chicken and mouse N-cadherin, while the other displays comparable homology to both E- and P-cadherins and was thus denoted EP-cadherin. This molecule has an apparent relative molecular mass of 125 × 10(3) (compared to approx. 138 × 10(3) or approx. 140 × 10(3) of E-cadherin and N-cadherins, respectively). Northern and Western blot analyses indicated that N-cadherin is first expressed at the neurula stage while EP-cadherin is the only cadherin detected in unfertilized eggs and cleavage stage embryos. Immunolabeling of Xenopus eggs with antibodies prepared against a fusion protein, containing a segment of EP-cadherin, indicated that the protein is highly enriched at the periphery of the animal hemisphere. EP-cadherin was also found in A6 epithelial cells derived from Xenopus kidneys, and was apparently localized in the intercellular adherens junctions.

Published

1991

31. Microfilament-organizing centers in areas of cell contact: cytoskeletal interactions during cell attachment and locomotion.

Author

Geiger, B, Avnur, Z, Rinnerthaler, G, Hinssen, H, and Small, V J

Abstract

In this article we discuss three aspects of cell contact formation: (a) the molecular architecture of the cytomatrix in cell-to-substrate focal contacts, (b) the dynamic properties of membrane- and microfilament-associated proteins in the contact areas, and (c) the involvement of microtubules in the coordinated and directed formation of new substrate contacts during cell locomotion. We show that different microfilament-associated proteins exhibit distinct patterns of association with focal contacts: some proteins are specifically associated with focal contacts (vinculin and talin); alpha-actinin is enriched in the contact areas but also is present along the stress fibers and in the lamellipodium; actin and filamin are detected throughout the contact areas but in apparently reduced amounts compared with the associated stress fibers; and tropomyosin, myosin, and spectrin are either absent from the endofacial surfaces of contact areas or are present in only very small amounts. Fluorescence photobleaching recovery analyses performed with living cells microinjected with fluorescently labeled actin, vinculin, and alpha-actinin indicate that each of these proteins maintains a dynamic equilibrium between a soluble cytoplasmic pool and a membrane-bound fraction. Correlation of the distribution of vinculin and tubulin in motile fibroblasts to local movements of the leading edge of the same cells indicates that free-end microtubules extend into actively ruffling areas along the lamellipodium and that new vinculin-containing contacts are preferentially formed in these protruding regions.

Published

1984

32. A chimeric N-cadherin/beta 1-integrin receptor which localizes to both cell-cell and cell-matrix adhesions.

Author

Geiger, B, Salomon, D, Takeichi, M, and Hynes, R O

Abstract

To study the molecular mechanisms involved in formation of cell contacts, we have transfected cultured cells with a chimeric cDNA encoding the cytoplasmic and transmembrane domains of beta 1 integrin and the extracellular region of N-cadherin and determined the subcellular distribution of the chimeric molecule. We show that the chimeric receptor associates preferentially with cell-matrix focal contacts, suggesting that its distribution is directed by its beta 1 integrin segment, presumably via interactions of the cytoplasmic domain with cytoskeletal elements characteristic of focal contacts. Transfected cells which expressed relatively high levels of the cadherin/integrin chimera underwent an apparent epithelialization and contained the molecule both in cell-matrix and cell-cell contacts. Location in cell-cell contacts indicates competence of the cadherin extracellular domain to participate in formation of cell-cell junctions using a foreign cytoplasmic domain. Labeling of these cultures for talin, which is normally associated only with matrix adhesions, revealed specific labeling along the newly formed intercellular junctions. This suggests that the local association of talin with these sites is induced by the cytoplasmic tail of beta 1 integrin receptor presented by the chimeric protein. These results suggest that the formation of adherens-type junctions is driven by the cooperative interactions of the relevant adhesion molecules (cadherins and integrins) both with the respective extracellular ligands and with the cytoskeleton.

Published

1992

33. Cyclic changes in the organization of cell adhesions and the associated cytoskeleton, induced by stimulation of tyrosine phosphorylation in bovine aortic endothelial cells.

Author

Ayalon, O and Geiger, B

Abstract

In this study we have investigated the relationships between the stimulation of tyrosine-specific protein phosphorylation and the state of assembly of cell-cell and cell-matrix adherens-type junctions. Bovine aortic endothelial (BAE) cells were treated with either the phosphotyrosine phosphatase inhibitor pervanadate or with epidermal growth factor (EGF), and the effect of the treatment on the organization of cell contacts and the actin cytoskeleton was evaluated by digital immunomicroscopy. We show here that pervanadate induced a dramatic (about 40-fold) increase in the level of phosphotyrosine labeling of cell-cell junctions, which reached maximal values following 20 minutes of incubation. Concomitantly, the junctional levels of vinculin, actin and plakoglobin increased, followed by a slower recruitment of cadherins to these sites. Upon longer incubation cell-cell junctions deteriorated and stress fibers and focal adhesions were formed. EGF stimulation of serum-starved BAE cells induced a rapid 'wave' of junctional tyrosine phosphorylation, followed by cyclic changes in the local levels of phosphotyrosine labeling. Periodic changes were also found in the intensity of labeling of junctional actin, vinculin and cadherins. These results suggest that tyrosine phosphorylation and the assembly of cell-cell adherens junctions are interdependent processes, and raise the possibility that the cross-talk between the two is responsible both for the regulation of junction formation and for adhesion-mediated signaling.

Published

1997

34. Focal adhesion formation by F9 embryonal carcinoma cells after vinculin gene disruption.

Author

Volberg, T, Geiger, B, Kam, Z, Pankov, R, Simcha, I, Sabanay, H, Coll, J L, Adamson, E, and Ben-Ze'ev, A

Abstract

The assembly of focal adhesions was investigated in F9 embryonal carcinoma cells in which the expression of vinculin was eliminated by a targeted disruption of the vinculin gene. Vinculin-deficient F9 cells were capable of adhering to fibronectin-coated surfaces, though they displayed a reduced spreading compared to the parental cells. Transmission electron microscopy as well as interference reflection microscopy of live cells showed that vinculin-null F9 cells formed focal adhesions that were indistinguishable from those of the control cells. Fluorescent labeling for actin, talin, alpha-actinin, paxillin and phosphotyrosinated components indicated that the organization of all these focal contact-associated components was essentially identical in the vinculin-containing and vinculin-null cells. However, quantitative, digitized microscopy indicated that the intensity of fluorescence labeling in focal adhesions for alpha-actinin, talin and paxillin was significantly higher in cells lacking vinculin. The results suggest that there are multiple molecular mechanisms for the formation of focal adhesions in the absence of vinculin.

Published

1995

35. Mapping of adherens junction components using microscopic resonance energy transfer imaging.

Author

Kam, Z, Volberg, T, and Geiger, B

Abstract

Quantitative microscopic imaging of resonance energy transfer (RET) was applied for immunological high resolution proximity mapping of several cytoskeletal components of cell adhesions. To conduct this analysis, a microscopic system was developed, consisting of a highly stable field illuminator, computer-controlled filter wheels for rapid multiple-color imaging and a sensitive, high resolution CCD camera, enabling quantitative data recording and processing. Using this system, we have investigated the spatial inter-relationships and organization of four adhesion-associated proteins, namely vinculin, talin, alpha-actinin and actin. Cultured chick lens cells were double labeled for each of the junctional molecules, using fluorescein- and rhodamine-conjugated antibodies or phalloidin. RET images were acquired with fluorescein excitation and rhodamine emission filter setting, corrected for fluorescein and rhodamine fluorescence, and normalized to the fluorescein image. The results pointed to high local densities of vinculin, talin and F-actin in focal adhesions, manifested by mean RET values of 15%, 12% and 10%, respectively. On the other hand, relatively low values (less than 1%) were observed following double immunofluorescence labeling of the same cells for alpha-actinin. Double indirect labeling for pairs of these four proteins (using fluorophore-conjugated antibodies or phalloidin) resulted in RET values of 5% or lower, except for the pair alpha-actinin and actin, which yielded significantly higher values (13-15%). These results suggest that despite their overlapping staining patterns, at the level of resolution of the light microscope, the plaque proteins vinculin and talin are not homogeneously interspersed at the molecular level but form segregated clusters. alpha-Actinin, on the other hand, does not appear to form such clusters but, rather, closely interacts with actin. We discuss here the conceptual and applicative aspects of RET measurements and the implications of the results on the subcellular molecular organization of adherens-type junctions.

Published

1995

36. Cytoskeletal involvement in the modulation of cell-cell junctions by the protein kinase inhibitor H-7.

Author

Citi, S, Volberg, T, Bershadsky, A D, Denisenko, N, and Geiger, B

Abstract

The protein kinase inhibitor H-7 has been shown to block junction dissociation induced by low extracellular calcium in Madin Darby canine kidney epithelial cells (S. Citi, J. Cell Biol. (1992) 117, 169-178). To understand the basis of this effect, we have examined how H-7 affects the organization of junctions and the actin cytoskeleton in different types of epithelial cells in culture. Immunofluorescence microscopy showed that H-7 confers Ca2+ independence on cultured epithelial lens cells, which lack tight junctions and desmosomes but have microfilament-associated adherens junctions. In these cells, H-7 did not protect N-cadherin from trypsin digestion at low extracellular calcium, suggesting that H-7 does not stabilize the 'active' cadherin conformation. In cultured Madin Darby canine kidney cells, H-7 partially prevented the fall in transepithelial resistance induced by cytochalasin D, either alone or in conjunction with calcium chelators. Double-immunofluorescence microscopy showed that H-7 inhibits both the fragmentation of labeling for the tight junction protein cingulin and the condensation of actin into cytoplasmic foci induced by cytochalasin D. Taken together, these observations indicate that H-7 inhibits junction dissociation by affecting the contractility of the adherens junction-associated microfilaments following treatment with calcium chelators or cytochalasin D.

Published

1994

37. The relationship between intermediate filaments and microfilaments before and during the formation of desmosomes and adherens-type junctions in mouse epidermal keratinocytes.

Author

Green, K J, Geiger, B, Jones, J C, Talian, J C, and Goldman, R D

Abstract

Actin, keratin, vinculin and desmoplakin organization were studied in primary mouse keratinocytes before and during Ca2+-induced cell contact formation. Double-label fluorescence shows that in cells cultured in low Ca2+ medium, keratin-containing intermediate filament bundles (IFB) and desmoplakin-containing spots are both concentrated towards the cell center in a region bounded by a series of concentric microfilament bundles (MFB). Within 5-30 min after raising Ca2+ levels, a discontinuous actin/vinculin-rich, submembranous zone of fluorescence appears at cell-cell interfaces. This zone is usually associated with short, perpendicular MFB, which become wider and longer with time. Later, IFB and the desmoplakin spots are seen aligned along the perpendicular MFB as they become redistributed to cell-cell interfaces where desmosomes form. Ultrastructural analysis confirms that before the Ca2+ switch, IFB and desmosomal components are found predominantly within the perimeter defined by the outermost of the concentric MFB. Individual IF often splay out, becoming interwoven into these MFB in the region of cell-substrate contact. In the first 30 min after the Ca2+ switch, areas of submembranous dense material (identified as adherens junctions), which are associated with the perpendicular MFB, can be seen at newly formed cell-cell contact sites. By 1-2 h, IFB-desmosomal component complexes are aligned with the perpendicular MFB as the complexes become redistributed to cell-cell interfaces. Cytochalasin D treatment causes the redistribution of actin into numerous patches; keratin-containing IFB undergo a concomitant redistribution, forming foci that coincide with the actin-containing aggregates. These results are consistent with an IF-MF association before and during desmosome formation in the primary mouse epidermal keratinocyte culture system, and with the temporal and spatial coordination of desmosome and adherens junction formation.

Published

1987

38. A-CAM: a 135-kD receptor of intercellular adherens junctions. I. Immunoelectron microscopic localization and biochemical studies.

Author

Volk, T and Geiger, B

Abstract

The recently described adherens junction-specific 135-kD protein (Volk, T., and B. Geiger, 1984, EMBO (Eur. Mol. Biol. Organ.) J., 3:2249-2260) was localized along cardiac muscle intercalated discs by immunogold labeling of ultrathin frozen sections. Analysis of this labeling indicated that the 135-kD protein, adherens junction-specific cell adhesion molecule (A-CAM), is tightly associated with the plasma membrane unlike vinculin labeling, which was present along the membrane-bound plaques of the fascia adherens. In cultured chick lens cells, A-CAM was associated with Ca2+-dependent junctions that were cleaved upon a decrease of extracellular Ca2+ concentrations to less than or equal to 0.5 mM. In the chelator-separated junction, A-CAM became exposed to exogenously added antibodies or to proteolytic enzymes. Upon addition of trypsin to EGTA-treated cells, A-CAM was cleaved into three major cell-bound antigenic peptides with apparent molecular masses of 78, 60, and 46 kD, suggesting that the extracellular domain of A-CAM has a size greater than or equal to kD. Incubation of electrophoretic gels with 125I-concanavalin A (Con A) indicated that one of the major Con A-binding proteins in chicken lens membranes is a integral of 135-kD glycoprotein that was partially purified on Con A-Sepharose column and identified as A-CAM by immunoblotting. Detergent partitioning assay using Triton X-114 biphasic system was carried out to determine whether A-CAM displays properties of an integral membrane protein. This assay indicated that the intact A-CAM molecule was recovered in the buffer phase but its cell-associated tryptic peptides, which presumably lost a great part of the A-CAM extracellular extension, readily partitioned into the detergent phase. The results obtained in this and in the following paper (Volk, T., and B. Geiger, 1986, J. Cell Biol., 103:1451-1464) strongly suggest that A-CAM is a Ca2+-dependent adherens junction-specific membrane glycoprotein that is involved in intercellular adhesion in these sites.

Published

1986

39. A-CAM: a 135-kD receptor of intercellular adherens junctions. II. Antibody-mediated modulation of junction formation.

Author

Volk, T and Geiger, B

Abstract

Intercellular adherens junctions between cultured lens epithelial cells are highly Ca2+-dependent and are readily dissociated upon chelation of extracellular Ca2+ ions. Addition of Ca2+ to EGTA-treated cells results in the recovery of cell-cell junctions including the reorganization of adherens junction-specific cell adhesion molecule (A-CAM), vinculin, and actin (Volk, T., and B. Geiger, 1986, J. Cell Biol., 103:000-000). Incubation of cells during the recovery phase with Fab' fragments of anti-A-CAM specifically inhibited the re-formation of cell-cell adherens junctions. This inhibition was accompanied by remarkable changes in microfilament organization manifested by an apparent deterioration of stress fibers and the appearance of fragmented actin bundles throughout the cytoplasm. Incubation of EGTA-dissociated cells with intact divalent anti-A-CAM antibodies in normal medium had no apparent inhibitory effect on junction formation and did not affect the assembly of actin microfilament bundles. Moreover, adherens junctions formed in the presence of the divalent antibodies became essentially Ca2+-independent, suggesting that cell-cell adhesion between them was primarily mediated by the antibodies. These studies suggest that A-CAM participates in intercellular adhesion in adherens-type junctions and point to its involvement in microfilament bundle assembly.

Published

1986

40. Contact formation during fibroblast locomotion: involvement of membrane ruffles and microtubules.

Author

Rinnerthaler, G, Geiger, B, and Small, J V

Abstract

We have correlated the motility of the leading edge of fibroblasts, monitored by phase-contrast cinematography, with the relative distributions of several cytoskeletal elements (vinculin, tubulin, and actin) as well as with the contact patterns determined by interference reflection microscopy. This analysis has revealed the involvement of both ruffles and microspikes, as well as microtubules in the initiation of focal contact formation. Nascent vinculin sites within the leading edge or at its base, taken as primordial cell-substrate contacts, were invariably colocalized with sites that showed a history of transient, prolonged, or cyclic ruffling activity. Extended microspike structures, often preceded the formation of ruffles. Immunofluorescent labeling indicated that some of these primordial contacts were in close apposition to the ends of microtubules that penetrated into the leading edge. By fluorescence and electron microscopy short bundles of actin filaments found at the base of the leading edge were identified as presumptive, primordial contacts. It is concluded that ruffles and microspikes, either independently or in combination, initiate and mark the sites for future contact. Plaque proteins then accumulate (within 10-30 s) at the contract site and, beneath ruffles, induce localized bundling of actin filaments. We propose that all primordial contacts support traction for leading edge protrusion but that only some persist long enough to nucleate stress fiber assembly. Microtubules are postulated as the elements that select, stabilize, and potentiate the formation of these latter, long-lived contacts.

Published

1988

41. Selective and unidirectional membrane redistribution of an H-2 antigen with an antibody-clustered viral antigen: relationship to mechanisms of cytotoxic T-cell interactions.

Author

Geiger, B, Rosenthal, K L, Klein, J, Zinkernagel, R M, and Singer, S J

Abstract

We have studied the co-redistribution of vesicular stomatitis virus (VSV) antigen and of individual H-2 antigens on the surfaces of mouse cells, and in parallel we have also used these VSV-infected cells as targets in cytotoxic T-cell killing experiments. Antibody-induced patching and capping of the VSV antigen caused an extensive co-patching and co-capping of the H-2Kb antigen but not of the H-2Db antigen. In reciprocal experiments, the antibody-induced patching of the H-2Kb or H-2Db antigen did not result in a co-patching of the VSV antigen. Radioimmunoassays showed that the relative numbers of H-2Kb, H-2Db, and VSV antigens on the surfaces of the cells exhibiting such nonreciprocal co-redistributions were closely similar. Furthermore, the H-2 restricted cytotoxic T-cell lysis of these target cells showed a marked preference for H-2Kb compared to H-2Db compatibility. We propose that the VSV and H-2 antigens are molecularly independent entities in the unpreturbed target cell membrane but that the antibody-induced clustering of the VSV antigen causes a selective and unidirectional co-redistribution (which we designate as syn-capping) of H-2Kb with the VSV antigen clusters. It is suggested that such a T-cell-induced syn-capping process involving an antigen and an H-2 molecule on the target cell may play a critical role in the mechanism of cytotoxic T-cell killing.

Published

1979

42. A functional test for maternally inherited cadherin in Xenopus shows its importance in cell adhesion at the blastula stage.

Author

Heasman, J, Ginsberg, D, Geiger, B, Goldstone, K, Pratt, T, Yoshida-Noro, C, and Wylie, C

Abstract

We report here on the consequences of reducing the expression of EP-cadherin at the earliest stages of Xenopus development. Injection of oligodeoxynucleotides antisense to maternal EP-cadherin mRNA into full-grown oocytes reduced the mRNA level in oocytes, and the protein level in blastulae. Adhesion between blastomeres was significantly reduced, as seen in whole embryos, and in assays of the ability of blastomeres to reaggregate in culture. This effect was especially conspicuous in the inner cells of the blastula and included the disruption of the blastocoel. The severity of the EP-cadherin mRNA depletion and of the disaggregation phenotype was dose dependent. This phenotype was rescued by the injection into EP-cadherin mRNA-depleted oocytes of the mRNA coding for a related cadherin, E-cadherin, that is normally expressed at the gastrula stage in the embryonic ectoderm.

Published

1994

43. Dynamic interactions of fluorescently labeled microtubule-associated proteins in living cells.

Author

Scherson, T, Kreis, T E, Schlessinger, J, Littauer, U Z, Borisy, G G, and Geiger, B

Abstract

Microtubule-associated proteins (MAPs) from calf brain were fluorescently labeled with 6-iodoacetamido fluorescein (I-AF). The modified MAPs (especially enriched for MAP2) were fully active in promoting tubulin polymerization in vitro and readily associated with cytoplasmic filaments when microinjected into living cultured cells. Double-labeling experiments indicated that the microinjected AF-MAPs were incorporated predominantly, if not exclusively, into cytoplasmic microtubules in untreated cells or paracrystals induced within vinblastine-treated cells. Similar results were obtained with different cell types (neuronal, epithelial, and fibroblastic) of diverse origin (man, mouse, chicken, and rat kangaroo). Mobility measurements of the microinjected AF-MAPs using the method of fluorescence-photobleaching recovery (FPR) revealed two populations of AF-MAPs with distinct dynamic properties: One fraction represents the soluble pool of MAPs and is mobile with a diffusion coefficient of D = 3 X 10(-9) cm2/s. The other fraction of MAPs is associated with the microtubules and is essentially immobile on the time scale of FPR experiments. However, it showed slow fluorescence recovery with an apparent half time of approximately 5 min. The slow recovery of fluorescence on defined photobleached microtubules occurred most probably by the incorporation of AF-MAPs from the soluble cytoplasmic pool into the bleached area. The bleached spot on defined microtubules remained essentially immobile during the slow recovery phase. These results suggest that MAPs can associate in vivo with microtubules of diverse cell types and that treadmilling of MAP2-containing microtubules in vivo, if it exists, is slower than 4 micron/h.

Published

1984

44. A chimeric N-cadherin/beta 1-integrin receptor which localizes to both cell-cell and cell-matrix adhesions

Author

Geiger, B., Salomon, D., Takeichi, M., and Hynes, R.O.

Abstract

To study the molecular mechanisms involved in formation of cell contacts, we have transfected cultured cells with a chimeric cDNA encoding the cytoplasmic and transmembrane domains of beta 1 integrin and the extracellular region of N-cadherin and determined the subcellular distribution of the chimeric molecule. We show that the chimeric receptor associates preferentially with cell-matrix focal contacts, suggesting that its distribution is directed by its beta 1 integrin segment, presumably via interactions of the cytoplasmic domain with cytoskeletal elements characteristic of focal contacts. Transfected cells which expressed relatively high levels of the cadherin/integrin chimera underwent an apparent epithelialization and contained the molecule both in cell-matrix and cell-cell contacts. Location in cell-cell contacts indicates competence of the cadherin extracellular domain to participate in formation of cell-cell junctions using a foreign cytoplasmic domain. Labeling of these cultures for talin, which is normally associated only with matrix adhesions, revealed specific labeling along the newly formed intercellular junctions. This suggests that the local association of talin with these sites is induced by the cytoplasmic tail of beta 1 integrin receptor presented by the chimeric protein. These results suggest that the formation of adherens-type junctions is driven by the cooperative interactions of the relevant adhesion molecules (cadherins and integrins) both with the respective extracellular ligands and with the cytoskeleton.

Published

1992

45. Study of vitrified, unstained frozen tissue sections by cryoimmunoelectron microscopy

Author

Sabanay, I., Arad, T., Weiner, S., and Geiger, B.

Abstract

We describe the development and application of a novel approach to high-resolution ultrastructural analysis of cells and tissues. It is based on the preparation of ultrathin frozen sections of fixed tissues, rinsing of the sections, followed by their embedding on the grid in a layer of vitrified ice, and direct observation with a cryoelectron microscope. Examination of smooth muscle, kidney and heart tissues showed that although no heavy metal staining was used, high-contrast images are obtained. Fine details of cytoplasmic filaments and organelles, membranes and membrane-associated structures, as well as connective-tissue elements are all visible. The new method is suitable for immunolabeling, including high resolution localization of specific molecules within the cytoplasm.

Published

1991

46. Localization of acetylcholine receptor in excitable membrane from the electric organ of Torpedo: Evidence for exposure of receptor antigenic sites on both sides of the membrane.

Author

Tarrab-Hazdai, R, Geiger, B, Fuchs, S, and Amsterdam, A

Abstract

Nicotinic acetylcholine receptor was localized in a receptor-rich membrane preparation from the electric organ of Torpedo californica by applying an immunoferritin technique. The membrane preparation was incubated with (Fab')2 fragments derived from specific rabbit antibodies against the purified acetylcholine receptor and subsequently with ferritin-conjugated goat antiserum to rabbit immunoglobulin. More than 50% of the vesicles were found to be labeled with ferritin while the rest remained unlabeled. Ferritin labeling on both sides of the membrane was evident in open membrane vesicles, whereas in closed vescles the labeling was confined to the outer surface due to the inability of the tracer to penetrate the membrane. These data suggest that antigenic sites of the receptor molecule are exposed on both sides of the excitable membrane, and that acetylcholine receptor may be a transmembrane protein.

Published

1978

47. Vinculin, an intracellular protein localized at specialized sites where microfilament bundles terminate at cell membranes.

Author

Geiger, B, Tokuyasu, K T, Dutton, A H, and Singer, S J

Abstract

As intracellular protein of 130,000 molecular weight was recently isolated in this laboratory from chicken gizzard smooth muscle. By immunofluorescence observations of cultured chicken fibroblasts, it was shown to be concentrated on the ventral surfaces of the cells where they formed focal adhesions to the substratum [Geiger, B. (1979) Cell 18, 193-205]. Focal adhesions are sites where, inside the fibroblast, microfilament bundles are known to terminate at the cell membrane. The suggestion was made that this new protein (herein named "vinculin") might be involved in the linkage of the termini of microfilament bundles to membranes in various cell types. To explore this possibility, in the present study we examined several chicken tissues, including intestinal epithelium, gizzard smooth muscle, and cardiac striated muscle, by immunoelectron microscopic labeling for vinculin on ultrathin frozen sections of the specimens. In each case, the immunolabeling for vinculin was concentrated close to membrane sites where microfilament bundles terminate: at the zonula adherens in the junctional complex of the brush border of epithelial cells; at the membrane-associated sense plaques of smooth cells; and at the fascia adherens of the intercalated disk membranes of cardiac muscle cells. These results suggest therefore that vinculin may participate in the anchoring of microfilament bundles to specific membrane sites in various cells.

Published

1980

48. Ultrastructure of chicken cardiac muscle as studied by double immunolabeling in electron microscopy.

Author

Tokuyasu, K T, Dutton, A H, Geiger, B, and Singer, S J

Abstract

The ultrastructural localization of alpha-actinin and vinculin in chicken cardiac muscle was studied by double indirect immunoelectron microscopy, using ferritin and iron-dextran (Imposil) as the electron-dense markers conjugated to the secondary antibodies, on ultrathin frozen sections of fixed tissue. Fixation and immunolabeling procedures were developed that permitted maximal retention of the two proteins at their natural sites as well as their adequate labeling. alpha-Actinin was found both on the Z-bands, as expected, and near the fascia adherens of the intercalated discs, whereas vinculin was confined to the latter sites. At the fascia adherens, the double labeling results clearly showed that vinculin was situated closer to the membrane than was alpha-actinin. These results, coupled with earlier observations, suggest that vinculin may participate in the linkage of actin-containing microfilament bundles to membranes in a variety of cell types.

Published

1981

49. Primary sequence and domain structure of chicken vinculin

Author

Price, G J, Jones, P, Davison, M D, Patel, B, Bendori, R, Geiger, B, and Critchley, D R

Abstract

We have determined the complete sequence of chick vinculin from two overlapping cDNA clones. The vinculin mRNA consists of 262 bp of 5' untranslated sequence, an open reading frame of 3195 bp (excluding the initiation codon) and a long 3' untranslated sequence (greater than 2 kb). Chick vinculin contains 1066 amino acid residues, and has a deduced molecular mass of 116,933 Da. Analysis of the domain structure of vinculin shows that the molecule can be cleaved by V8 proteinase into a 90 kDa globular head and a 32 kDa tail region, the latter of which could further be cleaved into a 27 kDa polypeptide. The 90 kDa globular head contains the N-terminus of vinculin, three 112-residue repeats (residues 259-589), and extends to approximately residue 850. Gel overlay experiments show that it also contains a binding site for the cytoskeletal protein talin. The talin-binding domain was further localized to the N-terminal 398 amino acid residues of the protein by expression in vitro of this region from a vinculin cDNA cloned into the Bluescript SK+ vector. The head and tail domains are apparently separated by a proline-rich region that contains V8-proteinase-cleavage sites and a candidate tyrosine (822)-phosphorylation site. Secondary-structure prediction suggests that the head and tail domains contain alpha-helical regions separated by short stretches of turn/coil. Comparison of the chick with a partial human sequence reveals that vinculin is a highly conserved protein. In chickens Southern-blot analysis is consistent with a single vinculin gene, and it is therefore likely that vinculin, and its higher-molecular-mass isoform termed metavinculin, arise through alternative splicing.

Published

1989

50. Spatial relationships of microtubule-organizing centers and the contact area of cytotoxic T lymphocytes and target cells.

Author

Geiger, B, Rosen, D, and Berke, G

Abstract

Specific binding (conjugation) of cytotoxic T lymphocytes (CTL) to target cells (TC) is the first step in a multistage process ultimately resulting in dissolution of the TC and recycling of the CTL. We examined the position of the microtubule organizing center (MTOC) of immune CTL bound to specific TC. Immunofluorescence labeling of freshly prepared CTL-TC conjugates with tubulin antibodies indicated that the MTOC in essentially all conjugated CTL but not in the conjugated TC were oriented towards the intercellular contact site. This finding was corroborated by electron microscopy examination of CTL-TC conjugates fixed either immediately after conjugation or during the lytic process. Antibody-induced caps of membrane antigens of CTL such as H-2 and Thy 1, did not show a similar relationship to the MTOC. Incubation of CTL-TC conjugates, 10-15 min at room temperature, resulted in an apparent deterioration of the microtubular system of conjugated CTL. It is proposed that the CTL plasma membrane proximal to the MTOC is particularly active in forming stable intercellular contacts, resulting in CTL-TC conjugation, and that subsequent modulation of the microtubular system of the CTL may be related to the cytolytic response and to detachment of the effector cell.

Published

1982