Your search keyword '"Kraegeloh A"' showing total 729 results

501. MRI follow-up of high-risk preterm infants

Author

Krägeloh-Mann, Ingeborg, Toft, Peter, Lunding, Jytte, Andresen, Jente, Pryds, Ole, and Lou, Hans C.

Published

1994

502. In vivo assessment of N-acetylaspartate in brain in spongy degeneration (Canavan's disease) by proton spectroscopy

Author

Grodd, Wolfgang, Krägeloh-Mann, Ingeborg, Petersen, Dirk, Karl Trefz, Friedrich, and Harzer, Klaus

Published

1990

503. Autorinnen und Autoren

Author

Ackermann, Hermann, Angstwurm, Heinz, Aschoff, Alfred, Banaschewski, Tobias, Baron, Ralf, Bartels, Claudius, Bartsch, Thorsten, Bayas, Antonios, Bender, Andreas, Benecke, Reiner, Berger, Mathias, Beuche, Wolfgang, Brand, Thomas, Ciarenbach, Peter, von Cramon, D. Yves, Curt, Armin, Deuschl, Günther, Diete, Sabine, Dieterich, Marianne, Dietz, Volker, Dietzmann, Knut, Ebersbach, Georg, Eiffert, Helmut, Engelhardt, Andreas, Erbguth, Frank, Ferbert, Andreas, Firsching, Raimund, Förderreuther, Stefanie, Förstl, Hans, Gaidzik, Peter W., Gärtner, Jutta, Gasser, Thomas, Goebel, Hans H., Görtier, Michael, Gold, Ralf, Goldenberg, Georg, Grehl, Holger, Grzyska, Ulrich, Hamann, Gerhard F., Klinik, Horst Schmidt, Hansen, Hans-Christian, Harms, Lutz, Haupt, Walter F., Hausotter, Wolfgang, Heide, Wolfgang, Heinen, Florian, von Haunersches, Kinderspital, Henningsen, Henning, Herholz, Karl, Hilz, Max J., Hug, Andreas, Hummelsheim, Horst, Janzen, Rudolf W.C., Jaspert-Grehl, Andrea, Johannsen-Horbach, Helga, Jüngling, Freimut D., Jurkat-Rott, Karin, Kapfhammer, Hans-Peter, Karnath, Hans-Otto, Klein, Karl M., Klockgether, Thomas, Kölmel, Hans W., Kolominsky-Rabas, Peter, Kömpf, Detlef, Kopp, Bruno, Krägeloh-Mann, Ingeborg, Krämer, Günter, Lang, Christoph J.G., Lehmann-Horn, Frank, Lins, Hartmut, Maurer, Mathias, Mauch, Erich, Masuhr, Florian, Marx, Peter, Meier, Uwe, Mirisch, Stephan, Möller, Jens C., Moschner, Carsten, Müller-Vahl, Hermann, Nau, Roland, Neveling, Michael, Oertel, Wolfgang H., Pellkofer, Hannah, Poser, Sigrid, Reichmann, Heinz, Reiners, Karlheinz, Reinhardt, Frank M., Rieckmann, Peter, Rosier, Norbert, Röβner, Veit, Rolfs, Arndt, Rosenow, Felix, Rothenberger, Aribert, Schäfer, Jochen, Schipper, Hayo I., Schlegel, Uwe, Schlote, Andrea, Schmidt, Roger, Schmidtke, Klaus, Schnider, Armin, Schönle, Paul W., Schreiber, Herbert, Schubotz, Ricarda I., Schumacher, Martin, Schurch, Brigitte, Schuster, Gabriele, Schwab, Stefan, Sommer, Claudia, Specht, Ulrich, Sprenger, Till, Stefan, Hermann, Steinhoff, Bernhard J., Stoll, Guido, Strauss, Walter C., Sturm, Walter, Tackenberg, Björn, Tauer, Ulrike, Tettenborn, Barbara, Thoden, Uwe, Thorbecke, Rupprecht, Tolle, Thomas R., Toyka, Klaus V., Traufeller, Kathrin, Vogel, Hans-Peter, Voltz, Raymond, Wallesch, Claus-Werner, Wessel, Karl, Wiedemann, Falk, Witt, Andreas, Wunderlich, Michael T., Zerr, Inga, Zeumer, Herman, Zierz, Stephan, Zihl, Josef, Ziemssen, Tjalf, and Zysset, Stefan

504. Visualization of the structure of native human pulmonary mucus.

Author

Meziu, E., Koch, M., Fleddermann, J., Schwarzkopf, K., Schneider, M., and Kraegeloh, A.

Subjects

*MUCUS, *ELECTRON microscope techniques, *STIMULATED emission, *SCANNING electron microscopy, *LASER microscopy

Abstract

[Display omitted] Human respiratory mucus lining the airway epithelium forms a challenging barrier to inhalation therapeutics. Therefore, structural elucidation of hydrated mucus is essential for an efficient drug delivery development. The structure of mucus has been primarily investigated by conventional electron microscopy techniques, which operate under vacuum conditions and require sample preparation steps that might alter the structure of mucus. In this study we investigated the impact of dehydration on mucus and analyzed the structure of mucus in its hydrated state. Cryo-scanning electron microscopy (Cryo-SEM) analysis of mucus showed, that during the process of sublimation, non-porous structure of mucus is transformed into a porous network. Similarly, images acquired by environmental scanning electron microscopy (ESEM), revealed a non-porous structure of hydrated mucus, while further observation at decreasing pressure demonstrated the strong influence of dehydration on mucus structure. We could successfully visualize the structural organization of the major gel forming mucin MUC5B in its hydrated state by employing stimulated emission depletion (STED) microscopy, which allowed resolving the nano-scale patterns of mucin macromolecules within the essentially pore-free mucus structure. The general structural organization of mucus components was addressed by confocal laser scanning microscopy (CLSM), which revealed the heterogeneous and composite structure of mucus. These results provide a novel view on the native structure of mucus and will affect drug delivery development. [ABSTRACT FROM AUTHOR]

Published

2021

505. Spannungsoptische Messungen

Author

Föppl, L., Mönch, E., Staatlichen Materialprüfungsanstalten Deutschlands, Siebel, Erich, editor, Amedick, E., editor, Berthold, R., editor, Bußmann, K. H., editor, Emschermann, H. H., editor, Ermlich, W., editor, Föppl, L., editor, Förster, F., editor, Glocker, R., editor, Hempel, M., editor, Hengemühle, W., editor, Hild, K., editor, Huggenberger, A. U., editor, Krägeloh, E., editor, de Laffolie, H., editor, Lohrer, W., editor, Melchior, P., editor, Mönch, E., editor, Oschatz, H., editor, Schramm, J., editor, Schwaigerer, S., editor, Seith, W., editor, Vaupel, O., editor, Siebel, E., editor, and Ludwig, N., editor

Published

1958

506. Verfahren und Einrichtungen zur röntgenographischen Spannungsmessung

Author

Glocker, R., Staatlichen Materialprüfungsanstalten Deutschlands, Siebel, Erich, editor, Amedick, E., editor, Berthold, R., editor, Bußmann, K. H., editor, Emschermann, H. H., editor, Ermlich, W., editor, Föppl, L., editor, Förster, F., editor, Glocker, R., editor, Hempel, M., editor, Hengemühle, W., editor, Hild, K., editor, Huggenberger, A. U., editor, Krägeloh, E., editor, de Laffolie, H., editor, Lohrer, W., editor, Melchior, P., editor, Mönch, E., editor, Oschatz, H., editor, Schramm, J., editor, Schwaigerer, S., editor, Seith, W., editor, Vaupel, O., editor, Siebel, E., editor, and Ludwig, N., editor

Published

1958

507. Meßverfahren und Meßeinrichtungen für Verformungsmessungen

Author

Huggenberger, A. U., Schwaigerer, S., Staatlichen Materialprüfungsanstalten Deutschlands, Siebel, Erich, editor, Amedick, E., editor, Berthold, R., editor, Bußmann, K. H., editor, Emschermann, H. H., editor, Ermlich, W., editor, Föppl, L., editor, Förster, F., editor, Glocker, R., editor, Hempel, M., editor, Hengemühle, W., editor, Hild, K., editor, Huggenberger, A. U., editor, Krägeloh, E., editor, de Laffolie, H., editor, Lohrer, W., editor, Melchior, P., editor, Mönch, E., editor, Oschatz, H., editor, Schramm, J., editor, Schwaigerer, S., editor, Seith, W., editor, Vaupel, O., editor, Siebel, E., editor, and Ludwig, N., editor

Published

1958

508. Härteprüfmaschinen und geräte

Author

Hengemühle, W., Staatlichen Materialprüfungsanstalten Deutschlands, Siebel, Erich, editor, Amedick, E., editor, Berthold, R., editor, Bußmann, K. H., editor, Emschermann, H. H., editor, Ermlich, W., editor, Föppl, L., editor, Förster, F., editor, Glocker, R., editor, Hempel, M., editor, Hengemühle, W., editor, Hild, K., editor, Huggenberger, A. U., editor, Krägeloh, E., editor, de Laffolie, H., editor, Lohrer, W., editor, Melchior, P., editor, Mönch, E., editor, Oschatz, H., editor, Schramm, J., editor, Schwaigerer, S., editor, Seith, W., editor, Vaupel, O., editor, Siebel, E., editor, and Ludwig, N., editor

Published

1958

509. Untersuchung von Werkstoffprüfmaschinen

Author

Ermlich, W., Hengemühle, W., Staatlichen Materialprüfungsanstalten Deutschlands, Siebel, Erich, editor, Amedick, E., editor, Berthold, R., editor, Bußmann, K. H., editor, Emschermann, H. H., editor, Ermlich, W., editor, Föppl, L., editor, Förster, F., editor, Glocker, R., editor, Hempel, M., editor, Hengemühle, W., editor, Hild, K., editor, Huggenberger, A. U., editor, Krägeloh, E., editor, de Laffolie, H., editor, Lohrer, W., editor, Melchior, P., editor, Mönch, E., editor, Oschatz, H., editor, Schramm, J., editor, Schwaigerer, S., editor, Seith, W., editor, Vaupel, O., editor, Siebel, E., editor, and Ludwig, N., editor

Published

1958

510. Prüfmaschinen für schwingende Beanspruchung

Author

Oschatz, H., Hempel, M., Staatlichen Materialprüfungsanstalten Deutschlands, Siebel, Erich, editor, Amedick, E., editor, Berthold, R., editor, Bußmann, K. H., editor, Emschermann, H. H., editor, Ermlich, W., editor, Föppl, L., editor, Förster, F., editor, Glocker, R., editor, Hempel, M., editor, Hengemühle, W., editor, Hild, K., editor, Huggenberger, A. U., editor, Krägeloh, E., editor, de Laffolie, H., editor, Lohrer, W., editor, Melchior, P., editor, Mönch, E., editor, Oschatz, H., editor, Schramm, J., editor, Schwaigerer, S., editor, Seith, W., editor, Vaupel, O., editor, Siebel, E., editor, and Ludwig, N., editor

Published

1958

511. Prüfmaschinen für zügige Beanspruchung

Author

Melchior, P., Emschermann, H. H., Staatlichen Materialprüfungsanstalten Deutschlands, Siebel, Erich, editor, Amedick, E., editor, Berthold, R., editor, Bußmann, K. H., editor, Emschermann, H. H., editor, Ermlich, W., editor, Föppl, L., editor, Förster, F., editor, Glocker, R., editor, Hempel, M., editor, Hengemühle, W., editor, Hild, K., editor, Huggenberger, A. U., editor, Krägeloh, E., editor, de Laffolie, H., editor, Lohrer, W., editor, Melchior, P., editor, Mönch, E., editor, Oschatz, H., editor, Schramm, J., editor, Schwaigerer, S., editor, Seith, W., editor, Vaupel, O., editor, Siebel, E., editor, and Ludwig, N., editor

Published

1958

512. Einleitung. Grundlagen und Entwicklung der Werkstoffprüfung

Author

Siebel, E., Staatlichen Materialprüfungsanstalten Deutschlands, Siebel, Erich, editor, Amedick, E., editor, Berthold, R., editor, Bußmann, K. H., editor, Emschermann, H. H., editor, Ermlich, W., editor, Föppl, L., editor, Förster, F., editor, Glocker, R., editor, Hempel, M., editor, Hengemühle, W., editor, Hild, K., editor, Huggenberger, A. U., editor, Krägeloh, E., editor, de Laffolie, H., editor, Lohrer, W., editor, Melchior, P., editor, Mönch, E., editor, Oschatz, H., editor, Schramm, J., editor, Schwaigerer, S., editor, Seith, W., editor, Vaupel, O., editor, Siebel, E., editor, and Ludwig, N., editor

Published

1958

513. Prüfmaschinen für stoßartige Beanspruchung

Author

Amedick, E., Bußmann, K. H., Staatlichen Materialprüfungsanstalten Deutschlands, Siebel, Erich, editor, Amedick, E., editor, Berthold, R., editor, Bußmann, K. H., editor, Emschermann, H. H., editor, Ermlich, W., editor, Föppl, L., editor, Förster, F., editor, Glocker, R., editor, Hempel, M., editor, Hengemühle, W., editor, Hild, K., editor, Huggenberger, A. U., editor, Krägeloh, E., editor, de Laffolie, H., editor, Lohrer, W., editor, Melchior, P., editor, Mönch, E., editor, Oschatz, H., editor, Schramm, J., editor, Schwaigerer, S., editor, Seith, W., editor, Vaupel, O., editor, Siebel, E., editor, and Ludwig, N., editor

Published

1958

514. Spektrochemische Analyse

Author

Seith, W., de Laffolie, H., Staatlichen Materialprüfungsanstalten Deutschlands, Siebel, Erich, editor, Amedick, E., editor, Berthold, R., editor, Bußmann, K. H., editor, Emschermann, H. H., editor, Ermlich, W., editor, Föppl, L., editor, Förster, F., editor, Glocker, R., editor, Hempel, M., editor, Hengemühle, W., editor, Hild, K., editor, Huggenberger, A. U., editor, Krägeloh, E., editor, de Laffolie, H., editor, Lohrer, W., editor, Melchior, P., editor, Mönch, E., editor, Oschatz, H., editor, Schramm, J., editor, Schwaigerer, S., editor, Seith, W., editor, Vaupel, O., editor, Siebel, E., editor, and Ludwig, N., editor

Published

1958

515. Die chemische Untersuchung metallischer Werkstoffe

Author

Lohrer, W., Staatlichen Materialprüfungsanstalten Deutschlands, Siebel, Erich, editor, Amedick, E., editor, Berthold, R., editor, Bußmann, K. H., editor, Emschermann, H. H., editor, Ermlich, W., editor, Föppl, L., editor, Förster, F., editor, Glocker, R., editor, Hempel, M., editor, Hengemühle, W., editor, Hild, K., editor, Huggenberger, A. U., editor, Krägeloh, E., editor, de Laffolie, H., editor, Lohrer, W., editor, Melchior, P., editor, Mönch, E., editor, Oschatz, H., editor, Schramm, J., editor, Schwaigerer, S., editor, Seith, W., editor, Vaupel, O., editor, Siebel, E., editor, and Ludwig, N., editor

Published

1958

516. Einrichtungen und Verfahren der metallographischen Prüfung

Author

Schramm, J., Staatlichen Materialprüfungsanstalten Deutschlands, Siebel, Erich, editor, Amedick, E., editor, Berthold, R., editor, Bußmann, K. H., editor, Emschermann, H. H., editor, Ermlich, W., editor, Föppl, L., editor, Förster, F., editor, Glocker, R., editor, Hempel, M., editor, Hengemühle, W., editor, Hild, K., editor, Huggenberger, A. U., editor, Krägeloh, E., editor, de Laffolie, H., editor, Lohrer, W., editor, Melchior, P., editor, Mönch, E., editor, Oschatz, H., editor, Schramm, J., editor, Schwaigerer, S., editor, Seith, W., editor, Vaupel, O., editor, Siebel, E., editor, and Ludwig, N., editor

Published

1958

517. IX. Zerstörungsfreie Werkstoffprüfung

Author

Berthold, R., Vaupel, O., Förster, F., Staatlichen Materialprüfungsanstalten Deutschlands, Siebel, Erich, editor, Amedick, E., editor, Berthold, R., editor, Bußmann, K. H., editor, Emschermann, H. H., editor, Ermlich, W., editor, Föppl, L., editor, Förster, F., editor, Glocker, R., editor, Hempel, M., editor, Hengemühle, W., editor, Hild, K., editor, Huggenberger, A. U., editor, Krägeloh, E., editor, de Laffolie, H., editor, Lohrer, W., editor, Melchior, P., editor, Mönch, E., editor, Oschatz, H., editor, Schramm, J., editor, Schwaigerer, S., editor, Seith, W., editor, Vaupel, O., editor, Siebel, E., editor, and Ludwig, N., editor

Published

1958

518. Zerstörungsfreie Werkstoffprüfung

Author

Berthold, R., Vaupel, O., Förster, F., Siebel, E., Amedick, E., editor, Berthold, R., editor, Bußmann, K. H., editor, Emschermann, H. H., editor, Ermlich, W., editor, Föppl, L., editor, Förster, F., editor, Glocker, R., editor, Hempel, M., editor, Hengemühle, W., editor, Hild, K., editor, Huggenberger, A. U., editor, Krägeloh, E., editor, de Laffolie, H., editor, Lohrer, W., editor, Melchior, P., editor, Mönch, E., editor, Oschatz, H., editor, Schramm, J., editor, Schwaigerer, S., editor, Seith, W., editor, Vaupel, O., editor, and Ludwig, N., editor

Published

1958

519. New Limit on the Permanent Electric Dipole Moment of 129Xe Using ³He Comagnetometry and SQUID Detection.

Author

Sachdeva, N., Fan, I., Babcock, E., Burghoff, M., Chupp, T. E., Degenkolb, S., Fierlinger, P., Haude, S., Kraegeloh, E., Kilian, W., Knappe-Grüneberg, S., Kuchler, F., Liu, T., Marino, M., Meinel, J., Rolfs, K., Salhi, Z., Schnabel, A., Singh, J. T., and Stuiber, S.

Subjects

*ELECTRIC dipole moments, *SUPERCONDUCTING quantum interference devices, *SQUIDS, *OPTICAL pumping, *ELECTRIC fields, *MAGNETIC fields, *TELEMETRY

Abstract

We report results of a new technique to measure the electric dipole moment of 129Xe with ³He comagnetometry. Both species are polarized using spin-exchange optical pumping, transferred to a measurement cell, and transported into a magnetically shielded room, where SQUID magnetometers detect free precession in applied electric and magnetic fields. The result from a one week measurement campaign in 2017 and a 2.5 week campaign in 2018, combined with detailed study of systematic effects, is dA(129Xe) = (1.4 ± 6.6stat ± 2.0syst) × 10-28 e cm. This corresponds to an upper limit of |dA(129Xe)| < 1.4 × 10-27 e cm (95% C.L.), a factor of 5 more sensitive than the limit set in 2001. [ABSTRACT FROM AUTHOR]

Published

2019

520. Non-Canonical Activation of the Epidermal Growth Factor Receptor by Carbon Nanoparticles.

Author

Stöckmann, Daniel, Spannbrucker, Tim, Ale-Agha, Niloofar, Jakobs, Philipp, Goy, Christine, Dyballa-Rukes, Nadine, Hornstein, Tamara, Unfried, Klaus, Haendeler, Judith, Kümper, Alexander, and Kraegeloh, Annette

Subjects

*EPIDERMAL growth factor receptors, *CARBON nanofibers, *PROTEIN kinase B

Abstract

The epidermal growth factor receptor (EGFR) is an abundant membrane protein, which is essential for regulating many cellular processes including cell proliferation. In our earlier studies, we observed an activation of the EGFR and subsequent signaling events after the exposure of epithelial cells to carbon nanoparticles. In the current study, we describe molecular mechanisms that allow for discriminating carbon nanoparticle-specific from ligand-dependent receptor activation. Caveolin-1 is a key player that co-localizes with the EGFR upon receptor activation by carbon nanoparticles. This specific process mediated by nanoparticle-induced reactive oxygen species and the accumulation of ceramides in the plasma membrane is not triggered when cells are exposed to non-nano carbon particles or the physiological ligand EGF. The role of caveolae formation was demonstrated by the induction of higher order structures of caveolin-1 and by the inhibition of caveolae formation. Using an in vivo model with genetically modified mice lacking caveolin-1, it was possible to demonstrate that carbon nanoparticles in vivo trigger EGFR downstream signaling cascades via caveolin-1. The identified molecular mechanisms are, therefore, of toxicological relevance for inhaled nanoparticles. However, nanoparticles that are intentionally applied to humans might cause side effects depending on this phenomenon. [ABSTRACT FROM AUTHOR]

Published

2018

521. Assessment of defects by means of fracture mechanics

Author

Kraegeloh, E

Published

1973

522. List of contributors

Author

Bavin, J, Beaumont, Jasia, Bower, Eva, Bower, Mark, Cockerill, Helen, Fitzgerald, Caroline, Gardner, Mary, Graham, Julia, Green, Dido, Guerrini, Renzo, Kelly, Rosie, Elliott, Tara Kerr, Krägeloh-Mann, Ingeborg, Laver-Bradbury, Cathy, McLaughlin, John F, Morris, Christopher, Pellacani, Simona, Reddihough, Dinah, Rosenbaum, Peter, Roy, Daniel S, Scrutton, David, Wilke, Marko, and Wright, Anne J

523. FLUX LINE LATTICES IN THE INTERMEDIATE STATE OF SUPERCONDUCTORS WITH GINZBURG--LANDAU PARAMETERS NEAR 1/$Root$ 2.

Author

Kraegeloh, U

Published

1969

524. INTERACTION ENERGY OF FLUX LINES WITH OSCILLATING ORDER PARAMETER.

Author

Kraegeloh, U

Published

1971

525. OBSERVATIONS ON SUPERCONDUCTORS BY ELECTRON MICROSCOPY.

Author

Kraegeloh, U

Published

1970

526. Fluorescence: A Correlative Analysis of Gold Nanoparticles Internalized by A549 Cells (Part. Part. Syst. Charact. 4/2014).

Author

Böse, Katharina, Koch, Marcus, Cavelius, Christian, Kiemer, Alexandra K., and Kraegeloh, Annette

Subjects

*NANOPARTICLES, *PARTICLES

Abstract

Annette Kraegeloh and co‐workers used correlative light and electron microscopy to detect fluorescently labeled gold nanoparticles inside A549 cells, as discussed on page 439. Fluorescence microscopy allowed detection of the particle polymer shell. The fluorescent spots were further examined for the presence of gold nanoparticles by transmission electron microscopy (shown in the enlarged section of the image), revealing that the particle shell can be lost after uptake into cells. [ABSTRACT FROM AUTHOR]

Published

2014

527. 47. Metachromatic leukodystrophy: A scoring system for brain MR observations

Author

Eichler, Florian, Grodd, Wolfgang, Grant, Ellen, Sessa, Maria, Bizzi, Alessandra, Bley, Annette, Kohlschuetter, Alfried, Loes, Daniel, and Kraegeloh-Mann, Ingeborg

Published

2009

528. Invitation to Apply or Nominate for Membership in the Early Career Board of Chemical Research in Toxicology .

Author

Sturla S, Dai J, Kraegeloh A, Normura D, Tetko I, Wang Y, and Serrano J

Published

2024

529. Impact of mucus modulation by N -acetylcysteine on nanoparticle toxicity.

Author

Meziu E, Shehu K, Koch M, Schneider M, and Kraegeloh A

Abstract

Human respiratory mucus is a biological hydrogel that forms a protective barrier for the underlying epithelium. Modulation of the mucus layer has been employed as a strategy to enhance transmucosal drug carrier transport. However, a drawback of this strategy is a potential reduction of the mucus barrier properties, in particular in situations with an increased exposure to particles. In this study, we investigated the impact of mucus modulation on its protective role. In vitro mucus was produced by Calu-3 cells, cultivated at the air-liquid interface for 21 days and used for further testing as formed on top of the cells. Analysis of confocal 3D imaging data revealed that after 21 days Calu-3 cells secrete a mucus layer with a thickness of 24 ± 6 μm. Mucus appeared to restrict penetration of 500 nm carboxyl-modified polystyrene particles to the upper 5-10 μm of the layer. Furthermore, a mucus modulation protocol using aerosolized N -acetylcysteine (NAC) was developed. This treatment enhanced the penetration of particles through the mucus down to deeper layers by means of the mucolytic action of NAC. These findings were supported by cytotoxicity data, indicating that intact mucus protects the underlying epithelium from particle-induced effects on membrane integrity. The impact of NAC treatment on the protective properties of mucus was probed by using 50 and 100 nm amine-modified and 50 nm carboxyl-modified polystyrene nanoparticles, respectively. Cytotoxicity was only induced by the amine-modified particles in combination with NAC treatment, implying a reduced protective function of modulated mucus. Overall, our data emphasize the importance of integrating an assessment of the protective function of mucus into the development of therapy approaches involving mucus modulation., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 The Authors. Published by Elsevier B.V.)

Published

2023

530. Women in Toxicology Special Issue.

Author

Miyamoto S, Naisbitt D, and Kraegeloh A

Published

2023

531. A Virtual Issue of Chemical Research in Toxicology in Celebration of the International Day of Women and Girls in Science.

Author

Bryant-Friedrich A, Kraegeloh A, and Sturla SJ

Published

2023

532. Digital research data: from analysis of existing standards to a scientific foundation for a modular metadata schema in nanosafety.

Author

Elberskirch L, Binder K, Riefler N, Sofranko A, Liebing J, Minella CB, Mädler L, Razum M, van Thriel C, Unfried K, Schins RPF, and Kraegeloh A

Subjects

Databases, Factual, Reproducibility of Results, Metadata, Research Design

Abstract

Background: Assessing the safety of engineered nanomaterials (ENMs) is an interdisciplinary and complex process producing huge amounts of information and data. To make such data and metadata reusable for researchers, manufacturers, and regulatory authorities, there is an urgent need to record and provide this information in a structured, harmonized, and digitized way., Results: This study aimed to identify appropriate description standards and quality criteria for the special use in nanosafety. There are many existing standards and guidelines designed for collecting data and metadata, ranging from regulatory guidelines to specific databases. Most of them are incomplete or not specifically designed for ENM research. However, by merging the content of several existing standards and guidelines, a basic catalogue of descriptive information and quality criteria was generated. In an iterative process, our interdisciplinary team identified deficits and added missing information into a comprehensive schema. Subsequently, this overview was externally evaluated by a panel of experts during a workshop. This whole process resulted in a minimum information table (MIT), specifying necessary minimum information to be provided along with experimental results on effects of ENMs in the biological context in a flexible and modular manner. The MIT is divided into six modules: general information, material information, biological model information, exposure information, endpoint read out information and analysis and statistics. These modules are further partitioned into module subdivisions serving to include more detailed information. A comparison with existing ontologies, which also aim to electronically collect data and metadata on nanosafety studies, showed that the newly developed MIT exhibits a higher level of detail compared to those existing schemas, making it more usable to prevent gaps in the communication of information., Conclusion: Implementing the requirements of the MIT into e.g., electronic lab notebooks (ELNs) would make the collection of all necessary data and metadata a daily routine and thereby would improve the reproducibility and reusability of experiments. Furthermore, this approach is particularly beneficial regarding the rapidly expanding developments and applications of novel non-animal alternative testing methods., (© 2021. The Author(s).)

Published

2022

533. Safe-by-Design part II: A strategy for balancing safety and functionality in the different stages of the innovation process.

Author

Tavernaro I, Dekkers S, Soeteman-Hernández LG, Herbeck-Engel P, Noorlander C, and Kraegeloh A

Subjects

Case-Control Studies, Humans, Industry, Nanostructures

Abstract

Manufactured nanomaterials have the potential to impact an exceedingly wide number of industries and markets ranging from energy storage, electronic and optical devices, light-weight construction to innovative medical approaches for diagnostics and therapy. In order to foster the development of safer nanomaterial-containing products, two main aspects are of major interest: their functional performance as well as their safety towards human health and the environment. In this paper a first proposal for a strategy is presented to link the functionality of nanomaterials with safety aspects. This strategy first combines information on the functionality and safety early during the innovation process and onwards, and then identifies Safe-by-Design (SbD) actions that allow for optimisation of both aspects throughout the innovation process. The strategy encompasses suggestions for the type of information needed to balance functionality and safety to support decision making in the innovation process. The applicability of the strategy is illustrated using a literature-based case study on carbon nanotube-based transparent conductive films. This is a first attempt to identify information that can be used for balancing functionality and safety in a structured way during innovation processes., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2021

534. Integrating Biophysics in Toxicology.

Author

Del Favero G and Kraegeloh A

Subjects

Animals, Biomechanical Phenomena, Extracellular Matrix metabolism, Humans, Models, Biological, Biophysics, Toxicology

Abstract

Integration of biophysical stimulation in test systems is established in diverse branches of biomedical sciences including toxicology. This is largely motivated by the need to create novel experimental setups capable of reproducing more closely in vivo physiological conditions. Indeed, we face the need to increase predictive power and experimental output, albeit reducing the use of animals in toxicity testing. In vivo, mechanical stimulation is essential for cellular homeostasis. In vitro, diverse strategies can be used to model this crucial component. The compliance of the extracellular matrix can be tuned by modifying the stiffness or through the deformation of substrates hosting the cells via static or dynamic strain. Moreover, cells can be cultivated under shear stress deriving from the movement of the extracellular fluids. In turn, introduction of physical cues in the cell culture environment modulates differentiation, functional properties, and metabolic competence, thus influencing cellular capability to cope with toxic insults. This review summarizes the state of the art of integration of biophysical stimuli in model systems for toxicity testing, discusses future challenges, and provides perspectives for the further advancement of in vitro cytotoxicity studies.

Published

2020

535. Special Issue on "Future Nanosafety".

Author

Krug H and Kraegeloh A

Subjects

Humans, Nanostructures adverse effects, Safety

Published

2020

536. Kinetic and spectroscopic responses of pH-sensitive nanoparticles: influence of the silica matrix.

Author

Clasen A, Wenderoth S, Tavernaro I, Fleddermann J, Kraegeloh A, and Jung G

Abstract

Intracellular pH sensing with fluorescent nanoparticles is an emerging topic as pH plays several roles in physiology and pathologic processes. Here, nanoparticle-sized pH sensors (diameter far below 50 nm) for fluorescence imaging have been described. Consequently, a fluorescent derivative of pH-sensitive hydroxypyrene with p K a a modified Stöber process. The detailed fluorescence spectroscopic characterization of the produced nanoparticles was carried out for retrieving information about the environment within the nanoparticle core. Several steady-state and time-resolved fluorescence spectroscopic methods hint to the screening of the probe molecule from the solvent, but it sustained interactions with hydrogen bonds similar to that of water. The incorporation of the indicator dye in the water-rich silica matrix neither changes the acidity constant nor dramatically slows down the protonation kinetics. However, cladding by another SiO via shell leads to the partial substitution of water and decelerating the response of the probe molecule toward pH. The sensor is capable of monitoring pH changes in a physiological range by using ratiometric fluorescence excitation with 2 shell leads to the partial substitution of water and decelerating the response of the probe molecule toward pH. The sensor is capable of monitoring pH changes in a physiological range by using ratiometric fluorescence excitation with λ ex = 405 nm and λ ex = 488 nm, as confirmed by the confocal fluorescence imaging of intracellular nanoparticle uptake., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2019

537. Mechanical strain mimicking breathing amplifies alterations in gene expression induced by SiO 2 NPs in lung epithelial cells.

Author

Schmitz C, Welck J, Tavernaro I, Grinberg M, Rahnenführer J, Kiemer AK, van Thriel C, Hengstler JG, and Kraegeloh A

Subjects

A549 Cells, Alveolar Epithelial Cells cytology, Alveolar Epithelial Cells drug effects, Humans, Lung cytology, Silicon Dioxide chemistry, Lung drug effects, Nanoparticles, Respiration, Silicon Dioxide pharmacology, Stress, Mechanical

Abstract

The effects of engineered nanomaterials on human health are still intensively studied in order to facilitate their safe application. However, relatively little is known how mechanical strain as induced in alveolar epithelial cells by breathing movements modifies biological responses to nanoparticles (NPs). In this study, A549 cells as a model for alveolar epithelial cells were exposed to 25 nm amorphous colloidal silica NPs under dynamic and static culture conditions. Gene array data, qPCR, and ELISA revealed an amplified effect of NPs when cells were mechanically stretched in order to model the physiological mechanical deformation during breathing. In contrast, treatment of cells with either strain or NPs alone only led to minor changes in gene expression or interleukin-8 (IL-8) secretion. Confocal microscopy revealed that stretching does not lead to an increased internalization of NPs, indicating that elevated intracellular NP accumulation is not responsible for the observed effect. Gene expression alterations induced by combined exposure to NPs and mechanical strain showed a high similarity to those known to be induced by TNF-α. This study suggests that the inclusion of mechanical strain into in vitro models of the human lung may have a strong influence on the test results.

Published

2019

538. Toll-Like Receptor 2 Release by Macrophages: An Anti-inflammatory Program Induced by Glucocorticoids and Lipopolysaccharide.

Author

Hoppstädter J, Dembek A, Linnenberger R, Dahlem C, Barghash A, Fecher-Trost C, Fuhrmann G, Koch M, Kraegeloh A, Huwer H, and Kiemer AK

Subjects

Dexamethasone pharmacology, Humans, Immunosuppressive Agents pharmacology, Lipopolysaccharides immunology, Macrophages, Alveolar drug effects, Macrophages, Alveolar metabolism, Toll-Like Receptor 2 drug effects, Toll-Like Receptor 2 metabolism, Glucocorticoids pharmacology, Immune Tolerance immunology, Lipopolysaccharides pharmacology, Macrophages, Alveolar immunology, Toll-Like Receptor 2 immunology

Abstract

Glucocorticoids (GCs) are widely prescribed therapeutics for the treatment of inflammatory diseases, and endogenous GCs play a key role in immune regulation. Toll-like receptors (TLRs) enable innate immune cells, such as macrophages, to recognize a wide variety of microbial ligands, thereby promoting inflammation. The interaction of GCs with macrophages in the immunosuppressive resolution phase upon prolonged TLR activation is widely unknown. Treatment of human alveolar macrophages (AMs) with the synthetic GC dexamethasone (Dex) did not alter the expression of TLRs -1, -4, and -6. In contrast, TLR2 was upregulated in a GC receptor-dependent manner, as shown by Western blot and qPCR. Furthermore, long-term lipopolysaccharide (LPS) exposure mimicking immunosuppression in the resolution phase of inflammation synergistically increased Dex-mediated TLR2 upregulation. Analyses of publicly available datasets suggested that TLR2 is induced during the resolution phase of inflammatory diseases, i.e., under conditions associated with high endogenous GC production. TLR2 induction did not enhance TLR2 signaling, as indicated by reduced cytokine production after treatment with TLR2 ligands in Dex- and/or LPS-primed AMs. Thus, we hypothesized that the upregulated membrane-bound TLR2 might serve as a precursor for soluble TLR2 (sTLR2), known to antagonize TLR2-dependent cell actions. Supernatants of LPS/Dex-primed macrophages contained sTLR2, as demonstrated by Western blot analysis. Activation of metalloproteinases resulted in enhanced sTLR2 shedding. Additionally, we detected full-length TLR2 and assumed that this might be due to the production of TLR2-containing extracellular vesicles (EVs). EVs from macrophage supernatants were isolated by sequential centrifugation. Both untreated and LPS/Dex-treated cells produced vesicles of various sizes and shapes, as shown by cryo-transmission electron microscopy. These vesicles were identified as the source of full-length TLR2 in macrophage supernatants by Western blot and mass spectrometry. Flow cytometric analysis indicated that TLR2-containing EVs were able to bind the TLR2 ligand Pam 3 CSK 4 . In addition, the presence of EVs reduced inflammatory responses in Pam 3 CSK 4 -treated endothelial cells and HEK Dual reporter cells, demonstrating that TLR2-EVs can act as decoy receptors. In summary, our data show that sTLR2 and full-length TLR2 are released by macrophages under anti-inflammatory conditions, which may contribute to GC-induced immunosuppression.

Published

2019

539. In Vitro Entero-Capillary Barrier Exhibits Altered Inflammatory and Exosomal Communication Pattern after Exposure to Silica Nanoparticles.

Author

Kasper JY, Hermanns MI, Kraegeloh A, Roth W, Kirkpatrick CJ, and Unger RE

Subjects

Caco-2 Cells, E-Selectin metabolism, Electric Impedance, Exosomes drug effects, Humans, Intercellular Adhesion Molecule-1 metabolism, Exosomes metabolism, Inflammation pathology, Nanoparticles toxicity, Silicon Dioxide toxicity

Abstract

The intestinal microvasculature (iMV) plays multiple pathogenic roles during chronic inflammatory bowel disease (IBD). The iMV acts as a second line of defense and is, among other factors, crucial for the innate immunity in the gut. It is also the therapeutic location in IBD targeting aggravated leukocyte adhesion processes involving ICAM-1 and E-selectin. Specific targeting is stressed via nanoparticulate drug vehicles. Evaluating the iMV in enterocyte barrier models in vitro could shed light on inflammation and barrier-integrity processes during IBD. Therefore, we generated a barrier model by combining the enterocyte cell line Caco-2 with the microvascular endothelial cell line ISO-HAS-1 on opposite sides of a transwell filter-membrane under culture conditions which mimicked the physiological and inflamed conditions of IBD. The IBD model achieved a significant barrier-disruption, demonstrated via transepithelial-electrical resistance (TER), permeability-coefficient (P app ) and increase of sICAM sE-selectin and IL-8. In addition, the impact of a prospective model drug-vehicle (silica nanoparticles, aSNP) on ongoing inflammation was examined. A decrease of sICAM/sE-selectin was observed after aSNP-exposure to the inflamed endothelium. These findings correlated with a decreased secretion of ICAM/E-selectin bearing exosomes/microvesicles, as evaluated via ELISA. Our findings indicate that aSNP treatment of the inflamed endothelium during IBD may hamper exosomal/microvesicular systemic communication.

Published

2019

540. Nanosafety: Where Are We Now and Where Must We Go?

Author

Krug H and Kraegeloh A

Subjects

Humans, Nanostructures chemistry

Published

2019

541. Distribution of SiO 2 nanoparticles in 3D liver microtissues.

Author

Fleddermann J, Susewind J, Peuschel H, Koch M, Tavernaro I, and Kraegeloh A

Subjects

Cell Death, Cell Survival, Fluorescence, Hep G2 Cells, Humans, Liver pathology, Nanoparticles ultrastructure, Oxidative Stress, Spheroids, Cellular pathology, Liver metabolism, Nanoparticles chemistry, Silicon Dioxide chemistry, Tissue Engineering methods

Abstract

Introduction: Nanoparticles (NPs) are used in numerous products in technical fields and biomedicine; their potential adverse effects have to be considered in order to achieve safe applications. Besides their distribution in tissues, organs, and cellular localization, their impact and penetration during the process of tissue formation occurring in vivo during liver regeneration are critical steps for establishment of safe nanomaterials., Materials and Methods: In this study, 3D cell culture of human hepatocarcinoma cells (HepG2) was used to generate cellular spheroids, serving as in vitro liver microtissues. In order to determine their differential distribution and penetration depth in HepG2 spheroids, SiO 2 NPs were applied either during or after spheroid formation. The NP penetration was comprehensively studied using confocal laser scanning microscopy and scanning electron microscopy., Results: Spheroids were exposed to 100 µg mL -1 SiO 2 NPs either at the beginning of spheroid formation, or during or after formation of spheroids. Microscopy analyses revealed that NP penetration into the spheroid is limited. During and after spheroid formation, SiO 2 NPs penetrated about 20 µm into the spheroids, corresponding to about three cell layers. In contrast, because of the addition of SiO 2 NPs simultaneously to cell seeding, NP agglomerates were located also in the spheroid center. Application of SiO 2 NPs during the process of spheroid formation had no impact on final spheroid size., Conclusion: Understanding the distribution of NPs in tissues is essential for biomedical applications. The obtained results indicate that NPs show only limited penetration into already formed tissue, which is probably caused by the alteration of the tissue structure and cell packing density during the process of spheroid formation., Competing Interests: Disclosure The authors report no conflicts of interest in this work.

Published

2019

542. Targeted T 1 Magnetic Resonance Imaging Contrast Enhancement with Extraordinarily Small CoFe 2 O 4 Nanoparticles.

Author

Piché D, Tavernaro I, Fleddermann J, Lozano JG, Varambhia A, Maguire ML, Koch M, Ukai T, Hernández Rodríguez AJ, Jones L, Dillon F, Reyes Molina I, Mitzutani M, González Dalmau ER, Maekawa T, Nellist PD, Kraegeloh A, and Grobert N

Abstract

Extraordinarily small (2.4 nm) cobalt ferrite nanoparticles (ESCIoNs) were synthesized by a one-pot thermal decomposition approach to study their potential as magnetic resonance imaging (MRI) contrast agents. Fine size control was achieved using oleylamine alone, and annular dark-field scanning transmission electron microscopy revealed highly crystalline cubic spinel particles with atomic resolution. Ligand exchange with dimercaptosuccinic acid rendered the particles stable in physiological conditions with a hydrodynamic diameter of 12 nm. The particles displayed superparamagnetic properties and a low r 2 / r 1 ratio suitable for a T 1 contrast agent. The particles were functionalized with bile acid, which improved biocompatibility by significant reduction of reactive oxygen species generation and is a first step toward liver-targeted T 1 MRI. Our study demonstrates the potential of ESCIoNs as T 1 MRI contrast agents.

Published

2019

543. Nanosafety Research-An Ongoing Story.

Author

Kraegeloh A

Published

2018

544. Implementation of Safe-by-Design for Nanomaterial Development and Safe Innovation: Why We Need a Comprehensive Approach.

Author

Kraegeloh A, Suarez-Merino B, Sluijters T, and Micheletti C

Abstract

Manufactured nanomaterials (MNMs) are regarded as key components of innovations in various fields with high potential impact (e.g., energy generation and storage, electronics, photonics, diagnostics, theranostics, or drug delivery agents). Widespread use of MNMs raises concerns about their safety for humans and the environment, possibly limiting the impact of the nanotechnology-based innovation. The development of safe MNMs and nanoproducts has to result in a safe as well as functional material or product. Its safe use, and disposal at the end of its life cycle must be taken into account too. However, not all MNMs are similarly useful for all applications, some might bear a higher hazard potential than others, and use scenarios could lead to different exposure probabilities. To improve both safety and efficacy of nanotechnology, we think that a new proactive approach is necessary, based on pre-regulatory safety assessment and dialogue between stakeholders. On the basis of the work carried out in different European Union (EU) initiatives, developing and integrating MNMs Safe-by-Design and Trusted Environments (NANoREG, ProSafe, and NanoReg2), we present our point of view here. This concept, when fully developed, will allow for cost effective industrial innovation, and an exchange of key information between regulators and innovators. Regulators are thus informed about incoming innovations in good time, supporting a proactive regulatory action. The final goal is to contribute to the nanotechnology governance, having faster, cheaper, effective, and safer nano-products on the market., Competing Interests: The authors declare no conflict of interest.

Published

2018

545. Silica Nanoparticles for Intracellular Protein Delivery: a Novel Synthesis Approach Using Green Fluorescent Protein.

Author

Schmidt S, Tavernaro I, Cavelius C, Weber E, Kümper A, Schmitz C, Fleddermann J, and Kraegeloh A

Abstract

In this study, a novel approach for preparation of green fluorescent protein (GFP)-doped silica nanoparticles with a narrow size distribution is presented. GFP was chosen as a model protein due to its autofluorescence. Protein-doped nanoparticles have a high application potential in the field of intracellular protein delivery. In addition, fluorescently labelled particles can be used for bioimaging. The size of these protein-doped nanoparticles was adjusted from 15 to 35 nm using a multistep synthesis process, comprising the particle core synthesis followed by shell regrowth steps. GFP was selectively incorporated into the silica matrix of either the core or the shell or both by a one-pot reaction. The obtained nanoparticles were characterised by determination of particle size, hydrodynamic diameter, ζ-potential, fluorescence and quantum yield. The measurements showed that the fluorescence of GFP was maintained during particle synthesis. Cellular uptake experiments demonstrated that the GFP-doped nanoparticles can be used as stable and effective fluorescent probes. The study reveals the potential of the chosen approach for incorporation of functional biological macromolecules into silica nanoparticles, which opens novel application fields like intracellular protein delivery.

Published

2017

546. Bright fluorescent silica-nanoparticle probes for high-resolution STED and confocal microscopy.

Author

Tavernaro I, Cavelius C, Peuschel H, and Kraegeloh A

Abstract

In recent years, fluorescent nanomaterials have gained high relevance in biological applications as probes for various fluorescence-based spectroscopy and imaging techniques. Among these materials, dye-doped silica nanoparticles have demonstrated a high potential to overcome the limitations presented by conventional organic dyes such as high photobleaching, low stability and limited fluorescence intensity. In the present work we describe an effective approach for the preparation of fluorescent silica nanoparticles in the size range between 15 and 80 nm based on L-arginine-controlled hydrolysis of tetraethoxysilane in a biphasic cyclohexane-water system. Commercially available far-red fluorescent dyes (Atto647N, Abberior STAR 635, Dy-647, Dy-648 and Dy-649) were embedded covalently into the particle matrix, which was achieved by aminosilane coupling. The physical particle attributes (particle size, dispersion, degree of agglomeration and stability) and the fluorescence properties of the obtained particles were compared to particles from commonly known synthesis methods. As a result, the spectroscopic characteristics of the presented monodisperse dye-doped silica nanoparticles were similar to those of the free uncoupled dyes, but indicate a much higher photostability and brightness. As revealed by dynamic light scattering and ζ-potential measurements, all particle suspensions were stable in water and cell culture medium. In addition, uptake studies on A549 cells were performed, using confocal and stimulated emission depletion (STED) microscopy. Our approach allows for a step-by-step formation of dye-doped silica nanoparticles in the form of dye-incorporated spheres, which can be used as versatile fluorescent probes in confocal and STED imaging.

Published

2017

547. Local Effects on Airway Inflammation and Systemic Uptake of 5 nm PEGylated and Citrated Gold Nanoparticles in Asthmatic Mice.

Author

Omlor AJ, Le DD, Schlicker J, Hannig M, Ewen R, Heck S, Herr C, Kraegeloh A, Hein C, Kautenburger R, Kickelbick G, Bals R, Nguyen J, and Dinh QT

Subjects

Animals, Asthma chemically induced, Mass Spectrometry, Mice, Mice, Inbred BALB C, Ovalbumin toxicity, Polyethylene Glycols chemistry, Asthma drug therapy, Gold chemistry, Metal Nanoparticles chemistry, Metal Nanoparticles therapeutic use, Nanotechnology methods

Abstract

Nanotechnology is showing promise in many medical applications such as drug delivery and hyperthermia. Nanoparticles administered to the respiratory tract cause local reactions and cross the blood-air barrier, thereby providing a means for easy systemic administration but also a potential source of toxicity. Little is known about how these effects are influenced by preexisting airway diseases such as asthma. Here, BALB/c mice are treated according to the ovalbumin (OVA) asthma protocol to promote allergic airway inflammation. Dispersions of polyethylene-glycol-coated (PEGylated) and citrate/tannic-acid-coated (citrated) 5 nm gold nanoparticles are applied intranasally to asthma and control groups, and (i) airway resistance and (ii) local tissue effects are measured as primary endpoints. Further, nanoparticle uptake into extrapulmonary organs is quantified by inductively coupled plasma mass spectrometry. The asthmatic precondition increases nanoparticle uptake. Moreover, systemic uptake is higher for PEGylated gold nanoparticles compared to citrated nanoparticles. Nanoparticles inhibit both inflammatory infiltrates and airway hyperreactivity, especially citrated gold nanoparticles. Although the antiinflammatory effects of gold nanoparticles might be of therapeutic benefit, systemic uptake and consequent adverse effects must be considered when designing and testing nanoparticle-based asthma therapies., (© 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

548. The role of the intestinal microvasculature in inflammatory bowel disease: studies with a modified Caco-2 model including endothelial cells resembling the intestinal barrier in vitro.

Author

Kasper JY, Hermanns MI, Cavelius C, Kraegeloh A, Jung T, Danzebrink R, Unger RE, and Kirkpatrick CJ

Subjects

Caco-2 Cells, Coculture Techniques, Electric Impedance, Endothelial Cells metabolism, Fluorescent Antibody Technique, Humans, Inflammation metabolism, Intestinal Mucosa metabolism, Lipopolysaccharides pharmacology, Microvessels, Cytokines metabolism, Endothelial Cells pathology, Inflammation pathology, Inflammation Mediators metabolism, Intestines pathology

Abstract

The microvascular endothelium of the gut barrier plays a crucial role during inflammation in inflammatory bowel disease. We have modified a commonly used intestinal cell model based on the Caco-2 cells by adding microvascular endothelial cells (ISO-HAS-1). Transwell filters were used with intestinal barrier-forming Caco-2 cells on top and the ISO-HAS-1 on the bottom of the filter. The goal was to determine whether this coculture mimics the in vivo situation more closely, and whether the model is suitable to evaluate interactions of, for example, prospective nanosized drug vehicles or contrast agents with this coculture in a physiological and inflamed state as it would occur in inflammatory bowel disease. We monitored the inflammatory responsiveness of the cells (release of IL-8, soluble intercellular adhesion molecule 1, and soluble E-selectin) after exposure to inflammatory stimuli (lipopolysaccharide, TNF-α, INF-γ, IL1-β) and a nanoparticle (Ba/Gd: coprecipitated BaSO 4 and Gd(OH) 3 ), generally used as contrast agents. The barrier integrity of the coculture was evaluated via the determination of transepithelial electrical resistance and the apparent permeability coefficient (P app ) of NaFITC. The behavior of the coculture Caco-1/ISO-HAS-1 was compared to the respective monocultures Caco-2 and ISO-HAS-1. Based on transepithelial electrical resistance, the epithelial barrier integrity of the coculture remained stable during incubation with all stimuli, whereas the P app decreased after exposure to the cytokine mixture (TNF-α, INF-γ, IL1-β, and Ba/Gd). Both the endothelial and epithelial monocultures showed a high inflammatory response in both the upper and lower transwell-compartments. However, in the coculture, inflammatory mediators were only detected on the epithelial side and not on the endothelial side. Thus in the coculture, based on the P app , the epithelial barrier appears to prevent a potential inflammatory overreaction in the underlying endothelial cells. In summary, this coculture model exhibits in vivo-like features, which cannot be observed in conventional monocultures, making the former more suitable to study interactions with external stimuli., Competing Interests: The authors report no conflicts of interest in this work.

Published

2016

549. Penetration of CdSe/ZnS quantum dots into differentiated vs undifferentiated Caco-2 cells.

Author

Peuschel H, Ruckelshausen T, Kiefer S, Silina Y, and Kraegeloh A

Abstract

Background: Quantum dots (QDs) have great potential as fluorescent labels but cytotoxicity relating to extra- and intracellular degradation in biological systems has to be addressed prior to biomedical applications. In this study, human intestinal cells (Caco-2) grown on transwell membranes were used to study penetration depth, intracellular localization, translocation and cytotoxicity of CdSe/ZnS QDs with amino and carboxyl surface modifications. The focus of this study was to compare the penetration depth of QDs in differentiated vs undifferentiated cells using confocal microscopy and image processing., Results: Caco-2 cells were exposed to QDs with amino (NH 2 ) and carboxyl (COOH) surface groups for 3 days using a concentration of 45 µg cadmium ml -1 . Image analysis of confocal/multiphoton microscopy z-stacks revealed no penetration of QDs into the cell lumen of differentiated Caco-2 cells. Interestingly, translocation of cadmium ions onto the basolateral side of differentiated monolayers was observed using high resolution inductively coupled plasma mass spectrometry (ICP-MS). Membrane damage was neither detected after short nor long term incubation in Caco-2 cells. On the other hand, intracellular localization of QDs after exposure to undifferentiated cells was observed and QDs were partially located within lysosomes., Conclusions: In differentiated Caco-2 monolayers, representing a model for small intestinal enterocytes, no penetration of amino and carboxyl functionalized CdSe/ZnS QDs into the cell lumen was detected using microscopy analysis and image processing. In contrast, translocation of cadmium ions onto the basolateral side could be detected using ICP-MS. However, even after long term incubation, the integrity of the cell monolayer was not impaired and no cytotoxic effects could be detected. In undifferentiated Caco-2 cells, both QD modifications could be found in the cell lumen. Only to some extend, QDs were localized in endosomes or lysosomes in these cells. The results indicate that the differentiation status of Caco-2 cells is an important factor in internalization and localization studies using Caco-2 cells. Furthermore, a combination of microscopy analysis and sensitive detection techniques like ICP-MS are necessary for studying the interaction of cadmium containing QDs with cells.

Published

2016

550. Interaction of graphene-related materials with human intestinal cells: an in vitro approach.

Author

Kucki M, Rupper P, Sarrieu C, Melucci M, Treossi E, Schwarz A, León V, Kraegeloh A, Flahaut E, Vázquez E, Palermo V, and Wick P

Subjects

Caco-2 Cells, Cell Survival drug effects, Graphite toxicity, Humans, Nanostructures toxicity, Nanostructures ultrastructure, Nanotechnology, Reactive Oxygen Species metabolism, Enterocytes drug effects, Enterocytes metabolism, Enterocytes pathology, Graphite chemistry, Nanostructures chemistry

Abstract

Graphene-related materials (GRM) inherit unique combinations of physicochemical properties which offer a high potential for technological as well as biomedical applications. It is not clear which physicochemical properties are the most relevant factors influencing the behavior of GRM in complex biological environments. In this study we have focused on the interaction of GRM, especially graphene oxide (GO), and Caco-2 cells in vitro. We mimiked stomach transition by acid-treatment of two representative GRM followed by analysis of their physicochemical properties. No significant changes in the material properties or cell viability of exposed Caco-2 cells in respect to untreated GRM could be detected. Furthermore, we explored the interaction of four different GO and Caco-2 cells to identify relevant physicochemical properties for the establishment of a material property-biological response relationship. Despite close interaction with the cell surface and the formation of reactive oxygen species (ROS), no acute toxicity was found for any of the applied GO (concentration range 0-80 μg ml(-1)) after 24 h and 48 h exposure. Graphene nanoplatelet aggregates led to low acute toxicity at high concentrations, indicating that aggregation, the number of layers or the C/O ratio have a more pronounced effect on the cell viability than the lateral size alone.

Published

2016