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2. Origin and propagation of the slow wave in the canine stomach: the outlines of a gastric conduction system

Author

Lammers, Wim J.E.P., Donck, Luc Ver, Stephen, Betty, Smets, Dirk, and Schuurkes, Jan A.J.

Subjects
Gastrointestinal system -- Physiological aspects, Gastrointestinal system -- Research, Pacemaker, Artificial (Heart) -- Usage, Wave propagation -- Research, Biological sciences
Abstract

Slow waves are known to originate orally in the stomach and to propagate toward the antrum, but the exact location of the pacemaker and the precise pattern of propagation have not yet been studied. Using assemblies of 240 extracellular electrodes, simultaneous recordings of electrical activity were made on the fundus, corpus, and antrum in open abdominal anesthetized dogs. The signals were analyzed off-line, pathways of slow wave propagation were reconstructed, and slow wave velocities and amplitudes were measured. The gastric pacemaker is located in the upper part of the fundus, along the greater curvature. Extracellularly recorded slow waves in the pacemaker area exhibited large amplitudes (1.8 [+ or -] 1.0 mV) and rapid velocities (1.5 [+ or -] 0.9 cm/s), whereas propagation in the remainder of the fundus and in the corpus was slow (0.5 [+ or -] 0.2 cm/s) with low-amplitude waveforms (0.8 [+ or -] 0.5 mV). In the antrum, slow wave propagation was fast (1.5 [+ or -] 0.6 cm/s) with large amplitude deflections (2.0 [+ or -] 1.3 mV). Two areas were identified where slow waves did not propagate, the first in the oral medial fundus and the second distal in the antrum. Finally, recordings from the entire ventral surface revealed the presence of three to five simultaneously propagating slow waves. High resolution mapping of the origin and propagation of the slow wave in the canine stomach revealed areas of high amplitude and rapid velocity, areas with fractionated low amplitude and low velocity, and areas with no propagation; all these components together constitute the elements of a gastric conduction system. slow wave; pacemaker; velocity; amplitude; gastric conduction system

Published
2009

3. Subtractive hybridization unravels a role for the ion cotransporter NKCC1 in the murine intestinal pacemaker

Author

Wouters, Mira, De Laet, Ann, Donck, Luc Ver, Delpire, Eric, van Bogaert, Pierre-Paul, Timmermans, Jean-Pierre, d'Exaerde, Alban de Kerchove, Smans, Karine, and Vanderwinden, Jean-Marie

Subjects
Bumetanide -- Research, Gastrointestinal system -- Research, Gastrointestinal system -- Physiological aspects, Biological sciences
Abstract

In the small intestine, interstitial cells of Cajal (ICC) surrounding the myenteric plexus generate the pacemaking slow waves that are essential for an efficient intestinal transit. The underlying molecular mechanisms of the slow wave are poorly known. Our aim was to identify ICC-specific genes and their function in the mouse jejunum. Suppression subtractive hybridization using two independent ICC-deficient mouse models identified 56 genes putatively downregulated in the muscularis propria compared with wild-type littermates. Differential expression was confirmed by real-time quantitative PCR for the tyrosine kinase receptor KIT, the established marker for ICC, and for the [Na.sup.+]-[K.sup.+]-2[Cl.sup.-] cotransporter (NKCC1). Immunoreactivity for NKCC1 was detected in myenteric ICC but not in the ICC population located at the deep muscular plexus. NKCC1 was also expressed in enteric neurons and mucosal crypts. Bumetanide, an NKCC1 inhibitor, reversibly affected the shape, amplitude, and frequency of the slow waves. Similar alterations were observed in NKCC1 knockout mice. These data support the hypothesis that NKCC1 expressed in myenteric ICC is involved in the mechanism of slow waves in the murine jejunum. interstitial cells of Cajal; bumetanide; slow waves

Published
2006

4. Longitudinal and circumferential spike patches in the canine small intestine in vivo

Author

Lammers, Wim J.E.P., Donck, Luc Ver, Schuurkes, Jan A.J., and Stephe, Betty

Subjects
Duodenum -- Research, Biological sciences
Abstract

Lammers, Wim J. E. P., Luc Ver Donck, Jan A. J. Schuurkes, and Betty Stephen. Longitudinal and circumferential spike patches in the canine small intestine in vivo. Am J Physiol Gastrointest Liver Physiol 285: G1014-G1027, 2003. First published July 3, 2003; 10.1152/ajpgi.00138. 2003.--In an open-abdominal anesthetized and fasted canine model of the intact small intestine, the presence, location, shape, and frequency of spike patches were investigated. Recordings were performed with a 240-electrode array (24 x 10, 2-mm interelectrode distance) from several sites sequentially, spanning the whole length of the small intestine. All 240 electrograms were recorded simultaneously during periods of 5 min and were analyzed to reconstruct the origin and propagation of individual spikes. At every level in the small intestine, spikes propagated in all directions before stopping abruptly, thereby activating a circumscribed area termed a 'patch.' Two types of spikes were found: longitudinal spikes, which propagated predominantly in the longitudinal direction and occurred most often in the duodenum, and a second type, circumferential spikes, which propagated predominantly in the circular direction and occurred much more frequently in the jejunum and ileum. Circumferential spikes conducted faster than longitudinal spikes (17 [+ or -] 6 and 7 [+ or -] 2 cm/s, respectively; P < 0.001). Circumferential spikes originated in >90% of all cases from the antimesenteric border, whereas longitudinal spikes were initiated all around the circumference of the intestinal tube. Finally, the spatial sequence of spike patches after the slow wave was very irregular in the upper part of the intestine but much more regular in the lower part. In conclusion, spikes and spike patches occur throughout the small intestine, whereas their type, sites of origin, extent of propagation, and frequencies of occurrence differ along the length of the small intestine, suggesting differences in local patterns of motility. slow waves; spike patches; duodenum; jejunum; ileum

Published
2003

8. O3‐12‐05: INTRACEREBRAL INJECTION OF PREFORMED SYNTHETIC TAU FIBRILS INITIATES WIDESPREAD TAUOPATHY AND NEURONAL LOSS IN THE BRAINS OF TAU TRANSGENIC MICE

Author

Moechars, Diederik, primary, Peeraer, Eve, additional, Bottelbergs, Astrid, additional, Van Kolen, Kristof, additional, Mahieu, Michel, additional, Duytschaever, Hilde, additional, Donck, Luc Ver, additional, Brunden, Kurt, additional, Trojanowski, John Q., additional, Kemp, John, additional, Mercken, Marc, additional, Dewachter, Ilse, additional, Lee, Virginia, additional, and Moechars, Diederik, additional

Published
2014
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9. P4-301: A systematic evaluation of the preclinical pharmacokinetic/pharmacodynamic relationship of Alzheimer's disease gold standard drugs in the rat: An in vitro , ex vivo and in vivo comparison

Author

Jones, Caitlin, primary, Fonteyn, Ineke, additional, Garewal, Nikhil, additional, Wintmolders, Cindy, additional, Cella, Massimo, additional, Wuyts, Koen, additional, Willems, Roland, additional, Duytschaever, Hilde, additional, Calderbanck, Emily, additional, Donck, Luc Ver, additional, Langlois, Xavier, additional, Richardson, Jill, additional, Schenker, Esther, additional, and Atack, John, additional

Published
2013
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10. Subtractive hybridization unravels a role for the ion cotransporter NKCC1 in the murine intestinal pacemaker.

Author

Wouters, M., De Laet, Ann, Donck, Luc Ver, Delpire, Eric, van Bogaert, Pierre-Paul, Timmermans, J P, de Kerchove d'Exaerde, Alban, Smans, Karine A, Vanderwinden, Jean-Marie, Wouters, M., De Laet, Ann, Donck, Luc Ver, Delpire, Eric, van Bogaert, Pierre-Paul, Timmermans, J P, de Kerchove d'Exaerde, Alban, Smans, Karine A, and Vanderwinden, Jean-Marie

Abstract

In the small intestine, interstitial cells of Cajal (ICC) surrounding the myenteric plexus generate the pacemaking slow waves that are essential for an efficient intestinal transit. The underlying molecular mechanisms of the slow wave are poorly known. Our aim was to identify ICC-specific genes and their function in the mouse jejunum. Suppression subtractive hybridization using two independent ICC-deficient mouse models identified 56 genes putatively downregulated in the muscularis propria compared with wild-type littermates. Differential expression was confirmed by real-time quantitative PCR for the tyrosine kinase receptor KIT, the established marker for ICC, and for the Na(+)-K(+)-2Cl(-) cotransporter (NKCC1). Immunoreactivity for NKCC1 was detected in myenteric ICC but not in the ICC population located at the deep muscular plexus. NKCC1 was also expressed in enteric neurons and mucosal crypts. Bumetanide, an NKCC1 inhibitor, reversibly affected the shape, amplitude, and frequency of the slow waves. Similar alterations were observed in NKCC1 knockout mice. These data support the hypothesis that NKCC1 expressed in myenteric ICC is involved in the mechanism of slow waves in the murine jejunum., Journal Article, Research Support, Non-U.S. Gov't, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2006

22. Systemic Immune Activation Leads to Neuroinflammation and Sickness Behavior in Mice.

Author

Biesmans, Steven, Meert, Theo F., Bouwknecht, Jan A., Acton, Paul D., Davoodi, Nima, De Haes, Patrick, Kuijlaars, Jacobine, Langlois, Xavier, Matthews, Liam J. R., Donck, Luc Ver, Hellings, Niels, and Nuydens, Rony

Subjects
ENCEPHALITIS, ENDOTOXINS, ASTROCYTES, IMMUNE response, CYTOKINES, ETIOLOGY of diseases, MICE behavior
Abstract

Substantial evidence indicates an association between clinical depression and altered immune function. Systemic administration of bacterial lipopolysaccharide (LPS) is commonly used to study inflammation-associated behavioral changes in rodents. In these experiments, we tested the hypothesis that peripheral immune activation leads to neuroinflammation and depressive-like behavior in mice. We report that systemic administration of LPS induced astrocyte activation in transgenic GFAP-luc mice and increased immunoreactivity against the microglial marker ionized calcium-binding adapter molecule 1 in the dentate gyrus of wild-type mice. Furthermore, LPS treatment caused a strong but transient increase in cytokine levels in the serum and brain. In addition to studying LPS-induced neuroinflammation, we tested whether sickness could be separated from depressive-like behavior by evaluating LPS-treated mice in a panel of behavioral paradigms. Our behavioral data indicate that systemic LPS administration caused sickness and mild depressive-like behavior. However, due to the overlapping time course and mild effects on depression-related behavior per se, it was not possible to separate sickness from depressive-like behavior in the present rodent model. [ABSTRACT FROM AUTHOR]

Published
2013
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27. GLMM approach to study the spatial and temporal evolution of spikes in the small intestine.

Author

Faes, Christel, Aerts, Marc, Geys, Helena, Bijnens, Luc, Donck, Luc Ver, and Lammers, Wim J. E. P.

Subjects
LINEAR statistical models, GASTROENTEROLOGY, MULTILEVEL models, PERISTALSIS, CATS as laboratory animals, STATISTICAL correlation, SPATIAL analysis (Statistics), SMALL intestine
Abstract

Mixed models can be applied in a wide range of settings. Probably, they are most commonly used to handle grouping in the data. In addition, mixed models can be used for smoothing purposes as well. When dealing with non-normal data, the use of smoothing methods within the generalized linear mixed models (GLMM) framework is less familiar. We explore the use of GLMM for smoothing purposes in both spatial and longitudinal dimensions. The methodology is illustrated by analysis of spike potentials in the small intestine of different cats. Spatio-temporal models that use two-dimensional smoothing splines across the spatial dimension and random effects to account for the correlations during successive slow-waves are developed. A major advantage of the mixed-model approach is that it can handle smoothing together with grouping (or other types of correlations) in a unified model. In this way, areas with high spike incidence compared with other areas can be detected. Also, the temporal and spatial characteristics of spikes during successive slow-waves can be identified. [ABSTRACT FROM AUTHOR]

Published
2006
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28. Calcium homeostasis in cardiomyocytes isolated from heat-shocked rats.

Author

Cornelussen, Richard N. and Donck, Luc Ver

Subjects
*MYOCARDIUM physiology, *CALCIUM ions, *PHYSIOLOGICAL effects of heat, *PHYSIOLOGY
Abstract

Investigates whether heat shock may influence the homeostasis of intracellular calcium ions in cardiomyocytes by examining the behavior of both paced and quiescent cells isolated from nonheated and heat-shocked animals. Indication that heat stress improves relaxation after challenge with high calcium ion levels.

Published
1996
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36. Selective inhibition of intestinal guanosine 3',5'-cyclic monophosphate signaling by small-molecule protein kinase inhibitors.

Author

Bijvelds, Marcel J. C., Nieuwenhuijze, Natascha D. A., Meijsen, Kelly F., de Jonge, Hugo R., Tresadern, Gary, Smans, Karine, Bongartz, Jean-Pierre, Donck, Luc Ver, Hellemans, Ann, Schuurkes, Jan A. J., and De Maeyer, Joris H.

Subjects
*CGMP-dependent protein kinase, *SMALL molecules, *CELL communication, *INTESTINES, *IMIDAZOLES, *PYRIMIDINES, *VASODILATOR-stimulated phosphoprotein
Abstract

The guanosine 3',5'-cyclic monophosphate (cGMP)-dependent protein kinase II (cGKII) serine/threonine kinase relays signaling through guanylyl cyclase C (GCC) to control intestinal fluid homeostasis. Here, we report the discovery of smallmolecule inhibitors of cGKII. These inhibitors were imidazoleaminopyrimidines, which blocked recombinant human cGKII at submicromolar concentrations but exhibited comparatively little activity toward the phylogenetically related protein kinases cGKI and cAMP-dependent protein kinase (PKA). Whereas aminopyrimidyl motifs are common in protein kinase inhibitors, molecular modeling of these imidazoleaminopyrimidines in the ATP-binding pocket of cGKII indicated an unconventional binding mode that directs their amine substituent into a narrow pocket delineated by hydrophobic residues of the hinge and the αC-helix. Crucially, this set of residues included the Leu-530 gatekeeper, which is not conserved in cGKI and PKA. In intestinal organoids, these compounds blocked cGKII-dependent phosphorylation of the vasodilatorstimulated phosphoprotein (VASP). In mouse small intestinal tissue, cGKII inhibition significantly attenuated the anion secretory response provoked by the GCC-activating bacterial heat-stable toxin (STa), a frequent cause of infectious secretory diarrhea. In contrast, both PKA-dependent VASP phosphorylation and intestinal anion secretion were unaffected by treatment with these compounds, whereas experiments with T84 cells indicated that they weakly inhibit the activity of cAMPhydrolyzing phosphodiesterases. As these protein kinase inhibitors are the first to display selective inhibition of cGKII, they may expedite research on cGMP signaling and may aid future development of therapeutics for managing diarrheal disease and other pathogenic syndromes that involve cGKII. [ABSTRACT FROM AUTHOR]

Published
2018
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