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531 results on '"Hordijk, Peter L"'

1. AAMP and MTSS1 Are Novel Negative Regulators of Endothelial Barrier Function Identified in a Proteomics Screen.

Author

Podieh, Fabienne, Overboom, Max C., Knol, Jaco C., Piersma, Sander R., Goeij-de Haas, Richard, Pham, Thang V., Jimenez, Connie R., and Hordijk, Peter L.

Subjects
UBIQUITIN ligases, RHO GTPases, PROTEOMICS, TISSUE adhesions, ENDOTHELIAL cells
Abstract

Cell–cell adhesion in endothelial monolayers is tightly controlled and crucial for vascular integrity. Recently, we reported on the importance of fast protein turnover for maintenance of endothelial barrier function. Specifically, continuous ubiquitination and degradation of the Rho GTPase RhoB is crucial to preserve quiescent endothelial integrity. Here, we sought to identify other barrier regulators, which are characterized by a short half-life, using a proteomics approach. Following short-term inhibition of ubiquitination with E1 ligase inhibitor MLN7243 or Cullin E3 ligase inhibitor MLN4924 in primary human endothelial cells, we identified sixty significantly differentially expressed proteins. Intriguingly, our data showed that AAMP and MTSS1 are novel negative regulators of endothelial barrier function and that their turnover is tightly controlled by ubiquitination. Mechanistically, AAMP regulates the stability and activity of RhoA and RhoB, and colocalizes with F-actin and cortactin at membrane ruffles, possibly regulating F-actin dynamics. Taken together, these findings demonstrate the critical role of protein turnover of specific proteins in the regulation of endothelial barrier function, contributing to our options to target dysregulation of vascular permeability. [ABSTRACT FROM AUTHOR]

Published
2024
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2. ARAP3 protects from excessive formylated peptide‐induced microvascular leakage by acting on endothelial cells and neutrophils

Author

Chu, Julia Y, primary, McCormick, Barry, additional, Sundaram, Kruthika, additional, Hardisty, Gareth, additional, Karmakar, Utsa, additional, Pumpe, Caroline, additional, Krull, Elizabeth, additional, Lucas, Christopher D, additional, Amado‐Azevedo, Joana, additional, Hordijk, Peter L, additional, Caporali, Andrea, additional, Mellor, Harry, additional, Baillie, J Kenneth, additional, Rossi, Adriano G, additional, and Vermeren, Sonja, additional

Published
2024
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4. Shear Stress-Induced AMP-Activated Protein Kinase Modulation in Endothelial Cells: Its Role in Metabolic Adaptions and Cardiovascular Disease.

Author

Hauger, Philipp C. and Hordijk, Peter L.

Subjects
*ENDOTHELIAL cells, *CARDIOVASCULAR diseases, *AMP-activated protein kinases, *CARDIOVASCULAR system, *TURBULENT flow, *PROTEIN kinases, *ETHYLCELLULOSE, *ION channels
Abstract

Endothelial cells (ECs) line the inner surface of all blood vessels and form a barrier that facilitates the controlled transfer of nutrients and oxygen from the circulatory system to surrounding tissues. Exposed to both laminar and turbulent blood flow, ECs are continuously subject to differential mechanical stimulation. It has been well established that the shear stress associated with laminar flow (LF) is atheroprotective, while shear stress in areas with turbulent flow (TF) correlates with EC dysfunction. Moreover, ECs show metabolic adaptions to physiological changes, such as metabolic shifts from quiescence to a proliferative state during angiogenesis. The AMP-activated protein kinase (AMPK) is at the center of these phenomena. AMPK has a central role as a metabolic sensor in several cell types. Moreover, in ECs, AMPK is mechanosensitive, linking mechanosensation with metabolic adaptions. Finally, recent studies indicate that AMPK dysregulation is at the center of cardiovascular disease (CVD) and that pharmacological targeting of AMPK is a promising and novel strategy to treat CVDs such as atherosclerosis or ischemic injury. In this review, we summarize the current knowledge relevant to this topic, with a focus on shear stress-induced AMPK modulation and its consequences for vascular health and disease. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Extravasation of biodegradable microspheres in the rat brain

Author

van der Wijk, Anne-Eva, Georgakopoulou, Theodosia, Steendam, Rob, Zuidema, Johan, Hordijk, Peter L., Bakker, Erik N. T. P., van Bavel, Ed, Physiology, and ACS - Microcirculation

Subjects
Pharmaceutical Science, General Medicine
Abstract

Drug development for neurological diseases is greatly impeded by the presence of the blood-brain barrier (BBB). We and others previously reported on extravasation of micrometer-sized particles from the cerebral microcirculation - across the BBB - into the brain tissue over the course of several weeks. This mechanism could potentially be used for sustained parenchymal drug delivery after extravasation of biodegradable microspheres. As a first step toward this goal, we set out to evaluate the extravasation potential in the rat brain of three classes of biodegradable microspheres with drug-carrying potential, having a median diameter of 13 µm (80% within 8-18 µm) and polyethylene glycol concentrations of 0%, 24% and 36%. Extravasation, capillary recanalization and tissue damage were determined in a rat cerebral microembolization model at day 14 after microsphere injection. Microspheres of all three classes had the potential to extravasate from the vessel into the brain parenchyma, with microspheres without polyethylene glycol extravasating the fastest. Microembolization with biodegradable microspheres led to impaired local capillary perfusion, which was substantially restored after bead extravasation. We did not observe overt tissue damage after microembolization with any microsphere: we found very limited BBB disruption (IgG extravasation), no microgliosis (Iba1 staining) and no large neuronal infarctions (NeuN staining). In conclusion, biodegradable microspheres with different polymer compositions can extravasate into the brain parenchyma while causing minimal tissue damage.

Published
2023

24. Epigenetic Modification of the von Willebrand Factor Promoter Drives Platelet Aggregation on the Pulmonary Endothelium in Chronic Thromboembolic Pulmonary Hypertension

Author

Manz, Xue D., primary, Szulcek, Robert, additional, Pan, Xiaoke, additional, Symersky, Petr, additional, Dickhoff, Chris, additional, Majolée, Jisca, additional, Kremer, Veerle, additional, Michielon, Elisabetta, additional, Jordanova, Ekaterina S., additional, Radonic, Teodora, additional, Bijnsdorp, Irene V., additional, Piersma, Sander R., additional, Pham, Thang V., additional, Jimenez, Connie R., additional, Noordegraaf, Anton Vonk, additional, de Man, Frances S., additional, Boon, Reinier A., additional, Voorberg, Jan, additional, Hordijk, Peter L., additional, Aman, Jurjan, additional, and Bogaard, Harm Jan, additional

Published
2022
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25. Electrostatic Forces Mediate the Specificity of RHO GTPase-GDI Interactions

Author

Mosaddeghzadeh, Niloufar, Kazemein Jasemi, Neda S., Majolée, Jisca, Zhang, Si-Cai, Hordijk, Peter L., Dvorsky, Radovan, Ahmadian, Mohammad Reza, VU University medical center, ACS - Microcirculation, and Physiology

Subjects
liposomes, rac1 GTP-Binding Protein, rho GTP-Binding Proteins, membrane extraction, QH301-705.5, Static Electricity, electrostatic steering, Article, guanine nucleotide dissociation inhibitors, geranylgeranyl, Humans, rho-Specific Guanine Nucleotide Dissociation Inhibitors, G domain, Amino Acid Sequence, Biology (General), QD1-999, polybasic motif, Prenylation, CDC42, RHOA, hypervariable region, Chemistry, Kinetics, RHOGDI, Hydrophobic and Hydrophilic Interactions, RAC1, RAC2
Abstract

Three decades of research have documented the spatiotemporal dynamics of RHO family GTPase membrane extraction regulated by guanine nucleotide dissociation inhibitors (GDIs), but the interplay of the kinetic mechanism and structural specificity of these interactions is as yet unresolved. To address this, we reconstituted the GDI-controlled spatial segregation of geranylgeranylated RHO protein RAC1 in vitro. Various biochemical and biophysical measurements provided unprecedented mechanistic details for GDI function with respect to RHO protein dynamics. We determined that membrane extraction of RHO GTPases by GDI occurs via a 3-step mechanism: (1) GDI non-specifically associates with the switch regions of the RHO GTPases, (2) an electrostatic switch determines the interaction specificity between the C-terminal polybasic region of RHO GTPases and two distinct negatively-charged clusters of GDI1, (3) a non-specific displacement of geranylgeranyl moiety from the membrane sequesters it into a hydrophobic cleft, effectively shielding it from the aqueous milieu. This study substantially extends the model for the mechanism of GDI-regulated RHO GTPase extraction from the membrane, and could have implications for clinical studies and drug development.

Published
2021

26. Abstract 6931: Epigenetic Modification of the Von Willebrand Factor Promotor Drives in situ Thrombosis in Chronic Thromboembolic Pulmonary Hypertension

Author

Manz, Xue D, primary, Szulcek, Robert, additional, Pan, Xiaoke, additional, Symersky, Petr, additional, Dickhoff, Chris, additional, Majolée, Jisca, additional, Kremer, Veerle, additional, Michielon, Elisabetta, additional, Jordanova, Ekatarina S, additional, Radonic, Teodora, additional, Bijnsdorp, Irene V, additional, Piersma, Sander R, additional, Pham, Thang V, additional, Jimenez, Connie, additional, De Man, Frances S, additional, Boon, Reinier A, additional, Voorberg, Jan, additional, Hordijk, Peter L, additional, Aman, Jurjan, additional, and Bogaard, Harm, additional

Published
2021
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29. Correction to: Depletion of Arg/Abl2 improves endothelial cell adhesion and prevents vascular leak during inflammation

Author

Amado-Azevedo, Joana, primary, van Stalborch, Anne-Marieke D., additional, Valent, Erik T., additional, Nawaz, Kalim, additional, van Bezu, Jan, additional, Eringa, Etto C., additional, Hoevenaars, Femke P. M., additional, De Cuyper, Iris M., additional, Hordijk, Peter L., additional, van Hinsbergh, Victor W. M., additional, van Nieuw Amerongen, Geerten P., additional, Aman, Jurjan, additional, and Margadant, Coert, additional

Published
2021
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31. sj-pdf-1-jet-10.1177_15266028211009272 – Supplemental material for Patient-Specific 3-Dimensional Model of Smooth Muscle Cell and Extracellular Matrix Dysfunction for the Study of Aortic Aneurysms

Author

Bogunovic, Natalija, Meekel, Jorn P., Jisca Majolée, Hekhuis, Marije, Pyszkowski, Jakob, Jockenhövel, Stefan, Kruse, Magnus, Riesebos, Elise, Micha, Dimitra, Blankensteijn, Jan D., Hordijk, Peter L., Samaneh Ghazanfari, and Kak K. Yeung

Subjects
FOS: Clinical medicine, Cardiology, Medicine, 110323 Surgery
Abstract

Supplemental material, sj-pdf-1-jet-10.1177_15266028211009272 for Patient-Specific 3-Dimensional Model of Smooth Muscle Cell and Extracellular Matrix Dysfunction for the Study of Aortic Aneurysms by Natalija Bogunovic, Jorn P. Meekel, Jisca Majolée, Marije Hekhuis, Jakob Pyszkowski, Stefan Jockenhövel, Magnus Kruse, Elise Riesebos, Dimitra Micha, Jan D. Blankensteijn, Peter L. Hordijk, Samaneh Ghazanfari and Kak K. Yeung in Journal of Endovascular Therapy

Published
2021
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32. sj-pdf-2-jet-10.1177_15266028211009272 – Supplemental material for Patient-Specific 3-Dimensional Model of Smooth Muscle Cell and Extracellular Matrix Dysfunction for the Study of Aortic Aneurysms

Author

Bogunovic, Natalija, Meekel, Jorn P., Jisca Majolée, Hekhuis, Marije, Pyszkowski, Jakob, Jockenhövel, Stefan, Kruse, Magnus, Riesebos, Elise, Micha, Dimitra, Blankensteijn, Jan D., Hordijk, Peter L., Samaneh Ghazanfari, and Kak K. Yeung

Subjects
FOS: Clinical medicine, Cardiology, Medicine, 110323 Surgery
Abstract

Supplemental material, sj-pdf-2-jet-10.1177_15266028211009272 for Patient-Specific 3-Dimensional Model of Smooth Muscle Cell and Extracellular Matrix Dysfunction for the Study of Aortic Aneurysms by Natalija Bogunovic, Jorn P. Meekel, Jisca Majolée, Marije Hekhuis, Jakob Pyszkowski, Stefan Jockenhövel, Magnus Kruse, Elise Riesebos, Dimitra Micha, Jan D. Blankensteijn, Peter L. Hordijk, Samaneh Ghazanfari and Kak K. Yeung in Journal of Endovascular Therapy

Published
2021
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33. sj-pdf-3-jet-10.1177_15266028211009272 – Supplemental material for Patient-Specific 3-Dimensional Model of Smooth Muscle Cell and Extracellular Matrix Dysfunction for the Study of Aortic Aneurysms

Author

Bogunovic, Natalija, Meekel, Jorn P., Jisca Majolée, Hekhuis, Marije, Pyszkowski, Jakob, Jockenhövel, Stefan, Kruse, Magnus, Riesebos, Elise, Micha, Dimitra, Blankensteijn, Jan D., Hordijk, Peter L., Samaneh Ghazanfari, and Kak K. Yeung

Subjects
FOS: Clinical medicine, Cardiology, Medicine, 110323 Surgery
Abstract

Supplemental material, sj-pdf-3-jet-10.1177_15266028211009272 for Patient-Specific 3-Dimensional Model of Smooth Muscle Cell and Extracellular Matrix Dysfunction for the Study of Aortic Aneurysms by Natalija Bogunovic, Jorn P. Meekel, Jisca Majolée, Marije Hekhuis, Jakob Pyszkowski, Stefan Jockenhövel, Magnus Kruse, Elise Riesebos, Dimitra Micha, Jan D. Blankensteijn, Peter L. Hordijk, Samaneh Ghazanfari and Kak K. Yeung in Journal of Endovascular Therapy

Published
2021
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36. Patient-Specific 3-Dimensional Model of Smooth Muscle Cell and Extracellular Matrix Dysfunction for the Study of Aortic Aneurysms

Author

Bogunovic, Natalija, primary, Meekel, Jorn P., additional, Majolée, Jisca, additional, Hekhuis, Marije, additional, Pyszkowski, Jakob, additional, Jockenhövel, Stefan, additional, Kruse, Magnus, additional, Riesebos, Elise, additional, Micha, Dimitra, additional, Blankensteijn, Jan D., additional, Hordijk, Peter L., additional, Ghazanfari, Samaneh, additional, and Yeung, Kak K., additional

Published
2021
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38. Additional file 2 of Microembolus clearance through angiophagy is an auxiliary mechanism preserving tissue perfusion in the rat brain

Author

Wijk, Anne-Eva Van Der, Georgakopoulou, Theodosia, Majolée, Jisca, Bezu, Jan S. M. Van, Stoel, Miesje M. Van Der, Hof, Bert J. Van Het, Vries, Helga E. De, Huveneers, Stephan, Hordijk, Peter L., Bakker, Erik N. T. P., and Bavel, Ed Van

Abstract

Additional file 2: Figure S1. Size distribution of fibrin particles

Published
2020
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39. Additional file 1 of Microembolus clearance through angiophagy is an auxiliary mechanism preserving tissue perfusion in the rat brain

Author

Wijk, Anne-Eva Van Der, Georgakopoulou, Theodosia, Majolée, Jisca, Bezu, Jan S. M. Van, Stoel, Miesje M. Van Der, Hof, Bert J. Van Het, Vries, Helga E. De, Huveneers, Stephan, Hordijk, Peter L., Bakker, Erik N. T. P., and Bavel, Ed Van

Subjects
Physiology, 29999 Physical Sciences not elsewhere classified, Biophysics, FOS: Physical sciences, Cell Biology, Biochemistry, Space Science, 39999 Chemical Sciences not elsewhere classified, FOS: Chemical sciences, FOS: Biological sciences, Genetics, Medicine, 69999 Biological Sciences not elsewhere classified, Developmental Biology
Abstract

Additional file 1. Supplementary information: Supplementary Materials and Methods, Table S1, Table S2, Supplementary Figure and Video legends

Published
2020

40. Additional file 4 of Microembolus clearance through angiophagy is an auxiliary mechanism preserving tissue perfusion in the rat brain

Author

Wijk, Anne-Eva Van Der, Georgakopoulou, Theodosia, Majolée, Jisca, Bezu, Jan S. M. Van, Stoel, Miesje M. Van Der, Hof, Bert J. Van Het, Vries, Helga E. De, Huveneers, Stephan, Hordijk, Peter L., Bakker, Erik N. T. P., and Bavel, Ed Van

Subjects
Physiology, 29999 Physical Sciences not elsewhere classified, Biophysics, FOS: Physical sciences, Cell Biology, Biochemistry, Space Science, 39999 Chemical Sciences not elsewhere classified, FOS: Chemical sciences, FOS: Biological sciences, Genetics, Medicine, 69999 Biological Sciences not elsewhere classified, Developmental Biology
Abstract

Additional file 4: Figure S2. Microspheres are taken up by hCMEC/D3 cells. (A) XZ and YZ orthogonal view of a z stack shows a cup structure of phalloidin (F-actin; red) surrounding the microsphere (white; in XZ and YZ depicted with dashed line), and F-actin- and VE-cadherin-positive “caps” on top of the microsphere. Different z planes are shown in i, ii and iii. Note the F-actin and VE-cadherin (green) surrounding the microsphere in ii, and the cap on top of the microsphere in iii. Scale bar = 10 µm. (B) Quantification of signal intensity for F-actin, VE = cadherin and microsphere in the z direction shows a peak in signal intensity after the microsphere, which is the cap structure on top of the microsphere. Light-colored lines are signal intensity in control location, i.e. of a region where no microsphere was bound. Signal intensity was quantified from 2-4 images averaged from n = 3 independent experiments. Data are depicted as mean ± S.D. (dashed lines). (C) Three-dimensional rendering of a fibrin clot, encapsulated by the cytoskeleton. Left panel is the view from below the cellular monolayer, right panel is the view from above the monolayer. Right panel shows that the fibrin clot is taken up by two cells, demonstrated by the two cell nuclei (DAPI; blue). Scale bar = 10 µm

Published
2020

41. Additional file 9 of Microembolus clearance through angiophagy is an auxiliary mechanism preserving tissue perfusion in the rat brain

Author

Wijk, Anne-Eva Van Der, Georgakopoulou, Theodosia, Majolée, Jisca, Bezu, Jan S. M. Van, Stoel, Miesje M. Van Der, Hof, Bert J. Van Het, Vries, Helga E. De, Huveneers, Stephan, Hordijk, Peter L., Bakker, Erik N. T. P., and Bavel, Ed Van

Subjects
Physiology, 29999 Physical Sciences not elsewhere classified, Biophysics, FOS: Physical sciences, Cell Biology, Biochemistry, Space Science, 39999 Chemical Sciences not elsewhere classified, FOS: Chemical sciences, FOS: Biological sciences, Genetics, Medicine, 69999 Biological Sciences not elsewhere classified, Developmental Biology
Abstract

Additional file 9: Figure S3. Microspheres induce mild reactive gliosis in vivo. (A) GFAP staining (green) was increased in the treated hemisphere. Scale bar = 1 mm. (B) Quantification of GFAP signal intensity at D1, D3 and 7 in the control (dark grey) and injected (light grey) hemispheres. N = 6-7 animals per time point. Data are depicted as median and IQR (min – max). *P

Published
2020
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42. Microtubule dynamics and Rac-1 signaling independently regulate barrier function in lung epithelial cells

Author

Lorenowicz, Magdalena J., Fernandez-Borja, Mar, van Stalborch, Anne-Marieke D., van Sterkenburg, Marian A.J.A., Hiemstra, Pieter S., and Hordijk, Peter L.

Subjects
Microtubules -- Research, Lungs -- Properties, Epithelial cells -- Properties, Cell interaction -- Physiological aspects, Biological sciences
Abstract

Cadherin-mediated cell-cell adhesion controls the morphology and function of epithelial cells and is a critical component of the pathology of chronic inflammatory disorders. Dynamic interactions between cadherins and the actin cytoskeleton are required for stable cell-cell contact. Besides actin, microtubules also target intercellular, cadherin-based junctions and contribute to their formation and stability. Here, we studied the role of microtubules in conjunction with Rho-like GTPases in the regulation of lung epithelial barrier function using real-time monitoring of transepithelial electrical resistance. Unexpectedly, we found that disruption of microtubules promotes epithelial cell-cell adhesion. This increase in epithelial barrier function is accompanied by the accumulation of [beta]-catenin at cell-cell junctions, as detected by immunofluorescence. Moreover, we found that the increase in cell-cell contact, induced by microtubule depolymerization, requires signaling through a RhoA/ Rho kinase pathway. The Rac-1 GTPase counteracts this pathway, because inhibition of Rac-1 signaling rapidly promotes epithelial barrier function, in a microtubule- and RhoA-independent fashion. Together, our data suggest that microtubule-RhoA-mediated signaling and Rac-1 control lung epithelial integrity through counteracting independent pathways. RhoA; cell-cell contact; transepithelial resistance

Published
2007

43. Targeting and activation of Rac1 are mediated by the exchange factor [beta]-Pix

Author

ten Klooster, Jean Paul, Jaffer, Zahara M., Chernoff, Jonathan, and Hordijk, Peter L.

Subjects
Guanosine triphosphatase -- Properties, Guanosine triphosphatase -- Analysis, Biological sciences
Abstract

Rho guanosine triphosphatases (GTPases) are critical regulators of cytoskeletal dynamics and control complex functions such as cell adhesion, spreading, migration, and cell division. It is generally accepted that localized GTPase activation is required for the proper initiation of downstream signaling events, although the molecular mechanisms that control targeting of Rho GTPases are unknown. In this study, we show that the Rho GTPase Rac1, via a proline stretch in its COOH terminus, binds directly to the SH3 domain of the Cdc42/Rac activator [beta]-Pix (p21-activated kinase [Pak]-interacting ex change factor). The interaction with [beta]-Pix is nucleotide independent and is necessary and sufficient for Rac1 recruitment to membrane ruffles and to focal adhesions. In addition, the Rac1-[beta]-Pix interaction is required for Rac1 activation by [beta]-Pix as well as for Rac1-mediated spreading. Finally, using cells deficient for the [beta]-Pix-binding kinase Pak1, we show that Pak1 regulates the Rac1-[beta]-Pix interaction and controls cell spreading and adhesion-induced Rac1 activation. These data provide a model for the intracellular targeting and localized activation of Rac1 through its exchange factor [beta]-Pix.

Published
2006

46. VCAM-1-mediated Rac signaling controls endothelial cell-cell contacts and leukocyte transmigration

Author

van Wetering, Sandra, van den Berk, Nadia, van Buul, Jaap D., Mul, Frederik P.J., Lommerse, Ingrid, Mous, Rogier, ten Klooster, Jean-Paul, Zwaginga, Jaap-Jan, and Hordijk, Peter L.

Subjects
Protein kinases -- Research, Leukocytes -- Research, Physiology -- Research, Biological sciences
Abstract

Leukocyte adhesion is mediated totally and transendothelial migration partially by heterotypic interactions between the [[beta].sub.1]- and [[beta].sub.2]-integrins on the leukocytes and their ligands, Ig-like cell adhesion molecules (Ig-CAM), VCAM-1, and ICAM-1, on the endothelium. Both integrins and Ig-CAMs are known to have signaling capacities. In this study we analyzed the role of VCAM-l-mediated signaling in the control of endothelial cell-cell adhesion and leukocyte transendothelial migration. Antibody-mediated cross-linking of VCAM-1 on IL-1[beta]-activated primary human umbilical vein endothelial cells (pHUVEC) induced actin stress fiber formation, contractility, and intercellular gaps. The effects induced by VCAM-1 cross-linking were inhibited by C3 toxin, indicating that the small GTPase p21Rho is involved. In addition, the effects of VCAM-1 were accompanied by activation of Rac, which we recently showed induce intercellular gaps in pHUVEC in a Rho-dependent fashion. With the use of a cell-permeable peptide inhibitor, it was shown that Rac signaling is required for VCAM-1-mediated loss of cell-cell adhesion. Furthermore, VCAM-1-mediated signaling toward cell-cell junctions was accompanied by, and dependent on, Rac-mediated production of reactive oxygen species and activation of p38 MAPK. In addition, it was found that inhibition of Rac-mediated signaling blocks transendothelial migration of monocytic U937 cells. Together, these data indicate that VCAM-1-induced, Rac-dependent signaling plays a key role in the modulation of vascular-endothelial cadherin-mediated endothelial cell-cell adhesion and leukocyte extravasation. human umbilical vein endothelial cells; vascular-endothelial cadherin; F-actin; reactive oxygen species; p38 mitogen-activated protein kinase; vascular cell adhesion molecule

Published
2003

49. Bosutinib prevents vascular leakage by reducing focal adhesion turnover and reinforcing junctional integrity

Author

Botros, Liza, primary, Pronk, Manon C. A., additional, Juschten, Jenny, additional, Liddle, John, additional, Morsing, Sofia K. S. H., additional, van Buul, Jaap D., additional, Bates, Robert H., additional, Tuinman, Pieter R., additional, van Bezu, Jan S. M., additional, Huveneers, Stephan, additional, Bogaard, Harm Jan, additional, van Hinsbergh, Victor W. M., additional, Hordijk, Peter L., additional, and Aman, Jurjan, additional

Published
2020
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