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1. Protective role of Pannexin1 in lymphatic endothelial cells in the progression of atherosclerosis in female mice.

Author

Ehrlich, Avigail, Pelli, Graziano, Foglia, Bernard, Molica, Filippo, and Kwak, Brenda R.

Subjects
HIGH cholesterol diet, ATHEROSCLEROTIC plaque, ARTERIAL diseases, FREE fatty acids, BLOOD cholesterol
Abstract

Atherosclerosis is a progressive arterial disease arising from imbalanced lipid metabolism and a maladaptive immune response. The lymphatic system ensures tissue fluid homeostasis, absorption of dietary fats and trafficking of immune cells to draining lymph nodes, thereby potentially affecting atherogenesis. Endothelial cell-specific deletion of Pannexin1 (Panx1) in apolipoprotein E-deficient (Apoe-/-) mice increased atherosclerosis, suggesting a protective role for Panx1 channels in arterial endothelial function. Here, we investigated the role of Panx1 in lymphatic endothelial cells (LECs) in the initiation and the progression of atherosclerosis. Male or female Prox1-CreERT2+Panx1fl/flApoe-/- and Panx1fl/flApoe-/- mice were fed a high cholesterol diet (HCD) for 6 or 10 weeks. Tamoxifen-induced deletion of Panx1 was performed before or after 4 weeks of HCD. Body weight and serum lipid profiles were determined. The atherosclerotic plaque burden was assessed by Sudan-IV staining on thoracic-abdominal aortas and in aortic roots. Plaque composition was determined by immunohistochemistry. No differences in serum cholesterol, LDL and HDL were observed between genotypes and between sexes after HCD. Bodyweight, serum triglycerides and free fatty acid levels were higher before and after 6 weeks of HCD in male Prox1-CreERT2+Panx1fl/flApoe-/- and control Panx1fl/flApoe-/- mice compared to females of the same genotypes, which was associated with more lipids and inflammatory cells in their atherosclerotic plaques. In contrast, the atherosclerotic plaque burden was higher in female mice. The progression of atherosclerosis in male mice was not different between genotypes. However, female Prox1-CreERT2+Panx1fl/flApoe-/- mice showed enhanced progression of atherosclerosis compared to Panx1fl/flApoe-/- controls of the same sex. In addition, atherosclerotic lesions in female, but not in male, Prox1-CreERT2+Panx1fl/flApoe-/- mice showed T cell enrichment. Altogether, our results reveal differential sex-dependent effects of Panx1 in lymphatic endothelium on the progression of atherosclerosis. [ABSTRACT FROM AUTHOR] more...

Published
2024
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2. Cold Exposure Rejuvenates the Metabolic Phenotype of Panx1 −/− Mice.

Author

Molica, Filippo, Ehrlich, Avigail, Pelli, Graziano, Rusiecka, Olga M., Montessuit, Christophe, Chanson, Marc, and Kwak, Brenda R.

Subjects
WHITE adipose tissue, FATTY acid oxidation, ADIPOSE tissues, INSULIN sensitivity, FAT cells
Abstract

Pannexin1 (Panx1) ATP channels are important in adipocyte biology, potentially influencing energy storage and expenditure. We compared the metabolic phenotype of young (14 weeks old) and mature (20 weeks old) wild-type (WT) and Panx1−/− mice exposed or not to cold (6 °C) during 28 days, a condition promoting adipocyte browning. Young Panx1−/− mice weighed less and exhibited increased fat mass, improved glucose tolerance, and lower insulin sensitivity than WT mice. Their energy expenditure and respiratory exchange ratio (RER) were increased, and their fatty acid oxidation decreased. These metabolic effects were no longer observed in mature Panx1−/− mice. The exposure of mature mice to cold exacerbated their younger metabolic phenotype. The white adipose tissue (WAT) of cold-exposed Panx1−/− mice contained more small-sized adipocytes, but, in contrast to WT mice, white adipocytes did not increase their expression of Ucp1 nor of other markers of browning adipocytes. Interestingly, Glut4 expression was already enhanced in the WAT of young Panx1−/− mice kept at 22 °C as compared to WT mice. Thus, Panx1 deletion exerts overall beneficial metabolic effects in mice that are pre-adapted to chronic cold exposure. Panx1−/− mice show morphological characteristics of WAT browning, which are exacerbated upon cold exposure, an effect that appears to be associated with Ucp1-independent thermogenesis. [ABSTRACT FROM AUTHOR] more...

Published
2024
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3. Pannexin1 deletion in lymphatic endothelium affects lymphatic function in a sex‐dependent manner.

Author

Ehrlich, Avigail, Pelli, Graziano, Pick, Robert, Clochard, Linda, Molica, Filippo, and Kwak, Brenda R.

Subjects
FREE fatty acids, ENDOTHELIUM, DIETARY fats, EXTRACELLULAR fluid, LYMPHATICS, DELETION mutation
Abstract

The lymphatic network of capillaries and collecting vessels ensures tissue fluid homeostasis, absorption of dietary fats and trafficking of immune cells. Pannexin1 (Panx1) channels allow for the passage of ions and small metabolites between the cytosol and extracellular environment. Panx1 channels regulate the pathophysiological function of several tissues in a sex‐dependent manner. Here, we studied the role of Panx1 in lymphatic function, and potential sex‐dependent differences therein, in Prox1‐CreERT2Panx1fl/fl and Panx1fl/fl control mice. Panx1 expression was higher in lymphatic endothelial cells (LECs) of male mice. Lymphatic vessel morphology was not affected in Prox1‐CreERT2Panx1fl/fl male and female mice. Lymphatic drainage was decreased by 25% in male Prox1‐CreERT2Panx1fl/fl mice, but was similar in females of both genotypes. Accordingly, only male Prox1‐CreERT2Panx1fl/fl mice exhibited tail swelling, pointing to interstitial fluid accumulation in males upon Panx1 deletion in LECs. Moreover, serum triglyceride and free fatty acid levels raised less in Prox1‐CreERT2Panx1fl/fl mice of both sexes in an oral lipid tolerance test. Finally, the percentage of migratory dendritic cells arriving in draining lymph nodes was increased in Prox1‐CreERT2Panx1fl/fl female mice, but was comparable between male mice of both genotypes. Our results point to a LEC‐specific role for Panx1 in the functions of the lymphatic system. [ABSTRACT FROM AUTHOR] more...

Published
2024
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4. Time-of-flight and black-blood MRI to study intracranial arteries in rats.

Author

Cayron, Anne F., Bejuy, Olivia, Vargas, Maria Isabel, Colin, Didier J., Aoki, Tomohiro, Lövblad, Karl-Olof, Bijlenga, Philippe, Kwak, Brenda R., Allémann, Eric, and Morel, Sandrine

Subjects
INTRACRANIAL arterial diseases, MAGNETIC resonance imaging, MAGNETIC resonance angiography, ARTERIES, INTRACRANIAL aneurysms
Abstract

Intracranial aneurysms (IAs) are usually incidentally discovered by magnetic resonance imaging (MRI). Once discovered, the risk associated with their treatment must be balanced with the risk of an unexpected rupture. Although clinical observations suggest that the detection of contrast agent in the aneurysm wall using a double-inversion recovery black-blood (BB) sequence may point to IA wall instability, the exact meaning of this observation is not understood. Validation of reliable diagnostic markers of IA (in)stability is of utmost importance to deciding whether to treat or not an IA. To longitudinally investigate IA progression and enhance our understanding of this devastating disease, animal models are of great help. The aim of our study was to improve a three-dimensional (3D)-time-of-flight (TOF) sequence and to develop a BB sequence on a standard preclinical 3-T MRI unit to investigate intracranial arterial diseases in rats. We showed that our 3D-TOF sequence allows reliable measurements of intracranial artery diameters, inter-artery distances, and angles between arteries and that our BB sequence enables us to visualize intracranial arteries. We report the first BB-MRI sequence to visualize intracranial arteries in rats using a preclinical 3-T MRI unit. This sequence could be useful for a large community of researchers working on intracranial arterial diseases. Relevance statement We developed a black-blood MRI sequence to study vessel wall enhancement in rats with possible application to understanding IAs instability and finding reliable markers for clinical decision-making. Key points • Reliable markers of aneurysm stability are needed for clinical decision. • Detection of contrast enhancement in the aneurysm wall may be associated with instability. • We developed a black-blood MRI sequence in rats to be used to study vessel wall enhancement of IAs. [ABSTRACT FROM AUTHOR] more...

Published
2024
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5. Nanobody-based pannexin1 channel inhibitors reduce inflammation in acute liver injury.

Author

Van Campenhout, Raf, De Groof, Timo W. M., Kadam, Prashant, Kwak, Brenda R., Muyldermans, Serge, Devoogdt, Nick, and Vinken, Mathieu

Subjects
LIVER injuries, ADENOSINE triphosphate, IMMUNOGLOBULINS, ANTI-inflammatory agents, NLRP3 protein
Abstract

Background: The opening of pannexin1 channels is considered as a key event in inflammation. Pannexin1 channel-mediated release of adenosine triphosphate triggers inflammasome signaling and activation of immune cells. By doing so, pannexin1 channels play an important role in several inflammatory diseases. Although pannexin1 channel inhibition could represent a novel clinical strategy for treatment of inflammatory disorders, therapeutic pannexin1 channel targeting is impeded by the lack of specific, potent and/or in vivo-applicable inhibitors. The goal of this study is to generate nanobody-based inhibitors of pannexin1 channels. Results: Pannexin1-targeting nanobodies were developed as potential new pannexin1 channel inhibitors. We identified 3 cross-reactive nanobodies that showed affinity for both murine and human pannexin1 proteins. Flow cytometry experiments revealed binding capacities in the nanomolar range. Moreover, the pannexin1-targeting nanobodies were found to block pannexin1 channel-mediated release of adenosine triphosphate. The pannexin1-targeting nanobodies were also demonstrated to display anti-inflammatory effects in vitro through reduction of interleukin 1 beta amounts. This anti-inflammatory outcome was reproduced in vivo using a human-relevant mouse model of acute liver disease relying on acetaminophen overdosing. More specifically, the pannexin1-targeting nanobodies lowered serum levels of inflammatory cytokines and diminished liver damage. These effects were linked with alteration of the expression of several NLRP3 inflammasome components. Conclusions: This study introduced for the first time specific, potent and in vivo-applicable nanobody-based inhibitors of pannexin1 channels. As demonstrated for the case of liver disease, the pannexin1-targeting nanobodies hold great promise as anti-inflammatory agents, yet this should be further tested for extrahepatic inflammatory disorders. Moreover, the pannexin1-targeting nanobodies represent novel tools for fundamental research regarding the role of pannexin1 channels in pathological and physiological processes. [ABSTRACT FROM AUTHOR] more...

Published
2023
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6. Mitochondrial pannexin1 controls cardiac sensitivity to ischaemia/reperfusion injury.

Author

Rusiecka, Olga M, Molica, Filippo, Nielsen, Morten S, Tollance, Axel, Morel, Sandrine, Frieden, Maud, Chanson, Marc, Boengler, Kerstin, and Kwak, Brenda R

Subjects
REPERFUSION injury, CONTRACTURE (Pathology), ISCHEMIA, ISCHEMIC preconditioning, MITOCHONDRIA, HEART cells, CARDIAC amyloidosis
Abstract

Aims No effective therapy is available in clinics to protect the heart from ischaemia/reperfusion (I/R) injury. Endothelial cells are activated after I/R, which may drive the inflammatory response by releasing ATP through pannexin1 (Panx1) channels. Here, we investigated the role of Panx1 in cardiac I/R. Methods and results Panx1 was found in cardiac endothelial cells, neutrophils, and cardiomyocytes. After in vivo I/R, serum Troponin-I, and infarct size were less pronounced in Panx1−/− mice, but leukocyte infiltration in the infarct area was similar between Panx1−/− and wild-type mice. Serum Troponin-I and infarct size were not different between mice with neutrophil-specific deletion of Panx1 and Panx1fl/fl mice, suggesting that cardioprotection by Panx1 deletion rather involved cardiomyocytes than the inflammatory response. Physiological cardiac function in wild-type and Panx1−/− hearts was similar. The time to onset of contracture and time to maximal contracture were delayed in Panx1−/− hearts, suggesting reduced sensitivity of these hearts to ischaemic injury. Moreover, Panx1−/− hearts showed better recovery of left ventricle developed pressure, cardiac contractility, and relaxation after I/R. Ischaemic preconditioning failed to confer further protection in Panx1−/− hearts. Panx1 was found in subsarcolemmal mitochondria (SSM). SSM in WT or Panx1−/− hearts showed no differences in morphology. The function of the mitochondrial permeability transition pore and production of reactive oxygen species in SSM was not affected, but mitochondrial respiration was reduced in Panx1−/− SSM. Finally, Panx1−/− cardiomyocytes had a decreased mitochondrial membrane potential and an increased mitochondrial ATP content. Conclusion Panx1−/− mice display decreased sensitivity to cardiac I/R injury, resulting in smaller infarcts and improved recovery of left ventricular function. This cardioprotective effect of Panx1 deletion seems to involve cardiac mitochondria rather than a reduced inflammatory response. Thus, Panx1 may represent a new target for controlling cardiac reperfusion damage. [ABSTRACT FROM AUTHOR] more...

Published
2023
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7. Primary cilia control endothelial permeability by regulating expression and location of junction proteins.

Author

Diagbouga, Mannekomba R, Morel, Sandrine, Cayron, Anne F, Haemmerli, Julien, Georges, Marc, Hierck, Beerend P, Allémann, Eric, Lemeille, Sylvain, Bijlenga, Philippe, and Kwak, Brenda R

Subjects
CILIA & ciliary motion, POLYCYSTIC kidney disease, CELL junctions, PERMEABILITY, INTRACRANIAL aneurysms
Abstract

Aims Wall shear stress (WSS) determines intracranial aneurysm (IA) development. Polycystic kidney disease (PKD) patients have a high IA incidence and risk of rupture. Dysfunction/absence of primary cilia in PKD endothelial cells (ECs) may impair mechano-transduction of WSS and favour vascular disorders. The molecular links between primary cilia dysfunction and IAs are unknown. Methods and results Wild-type and primary cilia-deficient Tg737orpk/orpk arterial ECs were submitted to physiological (30 dynes/cm2) or aneurysmal (2 dynes/cm2) WSS, and unbiased transcriptomics were performed. Tg737orpk/orpk ECs displayed a fivefold increase in the number of WSS-responsive genes compared to wild-type cells. Moreover, we observed a lower trans-endothelial resistance and a higher endothelial permeability, which correlated with disorganized intercellular junctions in Tg737orpk/orpk cells. We identified ZO-1 as a central regulator of primary cilia-dependent endothelial junction integrity. Finally, clinical and histological characteristics of IAs from non-PKD and PKD patients were analysed. IAs in PKD patients were more frequently located in the middle cerebral artery (MCA) territory than in non-PKD patients. IA domes from the MCA of PKD patients appeared thinner with less collagen and reduced endothelial ZO-1 compared with IA domes from non-PKD patients. Conclusion Primary cilia dampen the endothelial response to aneurysmal low WSS. In absence of primary cilia, ZO-1 expression levels are reduced, which disorganizes intercellular junctions resulting in increased endothelial permeability. This altered endothelial function may not only contribute to the severity of IA disease observed in PKD patients, but may also serve as a potential diagnostic tool to determine the vulnerability of IAs. [ABSTRACT FROM AUTHOR] more...

Published
2022
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8. Neutralization of S100A4 induces stabilization of atherosclerotic plaques: role of smooth muscle cells.

Author

Sakic, Antonija, Chaabane, Chiraz, Ambartsumian, Noona, Klingelhöfer, Jörg, Lemeille, Sylvain, Kwak, Brenda R, Grigorian, Mariam, and Bochaton-Piallat, Marie-Luce

Subjects
ATHEROSCLEROTIC plaque, SMOOTH muscle, MUSCLE cells, PLATELET-derived growth factor, PHENOTYPIC plasticity
Abstract

Aims During atherosclerosis, smooth muscle cells (SMCs) accumulate in the intima where they switch from a contractile to a synthetic phenotype. From porcine coronary artery, we isolated spindle-shaped (S) SMCs exhibiting features of the contractile phenotype and rhomboid (R) SMCs typical of the synthetic phenotype. S100A4 was identified as a marker of R-SMCs in vitro and intimal SMCs, in pig and man. S100A4 exhibits intra- and extracellular functions. In this study, we investigated the role of extracellular S100A4 in SMC phenotypic transition. Methods and results S-SMCs were treated with oligomeric recombinant S100A4 (oS100A4), which induced nuclear factor (NF)-κB activation. Treatment of S-SMCs with oS100A4 in combination with platelet-derived growth factor (PDGF)-BB induced a complete SMC transition towards a pro-inflammatory R-phenotype associated with NF-κB activation, through toll-like receptor-4. RNA sequencing of cells treated with oS100A4/PDGF-BB revealed a strong up-regulation of pro-inflammatory genes and enrichment of transcription factor binding sites essential for SMC phenotypic transition. In a mouse model of established atherosclerosis, neutralization of extracellular S100A4 decreased area of atherosclerotic lesions, necrotic core, and CD68 expression and increased α-smooth muscle actin and smooth muscle myosin heavy chain expression. Conclusion We suggest that the neutralization of extracellular S100A4 promotes the stabilization of atherosclerotic plaques. Extracellular S100A4 could be a new target to influence the evolution of atherosclerotic plaques. [ABSTRACT FROM AUTHOR] more...

Published
2022
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9. Effects of Low and High Aneurysmal Wall Shear Stress on Endothelial Cell Behavior: Differences and Similarities.

Author

Morel, Sandrine, Schilling, Sabine, Diagbouga, Mannekomba R., Delucchi, Matteo, Bochaton-Piallat, Marie-Luce, Lemeille, Sylvain, Hirsch, Sven, and Kwak, Brenda R.

Subjects
SHEARING force, EXTRACELLULAR matrix proteins, ENDOTHELIAL cells, SHEAR walls, GENETIC regulation
Abstract

Background: Intracranial aneurysms (IAs) result from abnormal enlargement of the arterial lumen. IAs are mostly quiescent and asymptomatic, but their rupture leads to severe brain damage or death. As the evolution of IAs is hard to predict and intricates medical decision, it is essential to improve our understanding of their pathophysiology. Wall shear stress (WSS) is proposed to influence IA growth and rupture. In this study, we investigated the effects of low and supra-high aneurysmal WSS on endothelial cells (ECs). Methods: Porcine arterial ECs were exposed for 48 h to defined levels of shear stress (2, 30, or 80 dyne/cm2) using an Ibidi flow apparatus. Immunostaining for CD31 or γ-cytoplasmic actin was performed to outline cell borders or to determine cell architecture. Geometry measurements (cell orientation, area, circularity and aspect ratio) were performed on confocal microscopy images. mRNA was extracted for RNAseq analysis. Results: ECs exposed to low or supra-high aneurysmal WSS were more circular and had a lower aspect ratio than cells exposed to physiological flow. Furthermore, they lost the alignment in the direction of flow observed under physiological conditions. The effects of low WSS on differential gene expression were stronger than those of supra-high WSS. Gene set enrichment analysis highlighted that extracellular matrix proteins, cytoskeletal proteins and more particularly the actin protein family were among the protein classes the most affected by shear stress. Interestingly, most genes showed an opposite regulation under both types of aneurysmal WSS. Immunostainings for γ-cytoplasmic actin suggested a different organization of this cytoskeletal protein between ECs exposed to physiological and both types of aneurysmal WSS. Conclusion: Under both aneurysmal low and supra-high WSS the typical arterial EC morphology molds to a more spherical shape. Whereas low WSS down-regulates the expression of cytoskeletal-related proteins and up-regulates extracellular matrix proteins, supra-high WSS induces opposite changes in gene expression of these protein classes. The differential regulation in EC gene expression observed under various WSS translate into a different organization of the ECs' architecture. This adaptation of ECs to different aneurysmal WSS conditions may affect vascular remodeling in IAs. [ABSTRACT FROM AUTHOR] more...

Published
2021
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10. Detecting early myocardial ischemia in rat heart by MALDI imaging mass spectrometry.

Author

Aljakna Khan, Aleksandra, Bararpour, Nasim, Gorka, Marie, Joye, Timothée, Morel, Sandrine, Montessuit, Christophe A., Grabherr, Silke, Fracasso, Tony, Augsburger, Marc, Kwak, Brenda R., Thomas, Aurélien, and Sabatasso, Sara more...

Subjects
METABOLOMICS, MYOCARDIUM, NAD (Coenzyme), MYOCARDIAL ischemia
Abstract

Diagnostics of myocardial infarction in human post-mortem hearts can be achieved only if ischemia persisted for at least 6–12 h when certain morphological changes appear in myocardium. The initial 4 h of ischemia is difficult to diagnose due to lack of a standardized method. Developing a panel of molecular tissue markers is a promising approach and can be accelerated by characterization of molecular changes. This study is the first untargeted metabolomic profiling of ischemic myocardium during the initial 4 h directly from tissue section. Ischemic hearts from an ex-vivo Langendorff model were analysed using matrix assisted laser desorption/ionization imaging mass spectrometry (MALDI IMS) at 15 min, 30 min, 1 h, 2 h, and 4 h. Region-specific molecular changes were identified even in absence of evident histological lesions and were segregated by unsupervised cluster analysis. Significantly differentially expressed features were detected by multivariate analysis starting at 15 min while their number increased with prolonged ischemia. The biggest significant increase at 15 min was observed for m/z 682.1294 (likely corresponding to S-NADHX—a damage product of nicotinamide adenine dinucleotide (NADH)). Based on the previously reported role of NAD+/NADH ratio in regulating localization of the sodium channel (Nav1.5) at the plasma membrane, Nav1.5 was evaluated by immunofluorescence. As expected, a fainter signal was observed at the plasma membrane in the predicted ischemic region starting 30 min of ischemia and the change became the most pronounced by 4 h. Metabolomic changes occur early during ischemia, can assist in identifying markers for post-mortem diagnostics and improve understanding of molecular mechanisms. [ABSTRACT FROM AUTHOR] more...

Published
2021
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13. Imaging of intracranial aneurysms in animals: a systematic review of modalities.

Author

Cayron, Anne F., Morel, Sandrine, Allémann, Eric, Bijlenga, Philippe, and Kwak, Brenda R.

Abstract

Intracranial aneurysm (IA) animal models are paramount to study IA pathophysiology and to test new endovascular treatments. A number of in vivo imaging modalities are available to characterize IAs at different stages of development in these animal models. This review describes existing in vivo imaging techniques used so far to visualize IAs in animal models. We systematically searched for studies containing in vivo imaging of induced IAs in animal models in PubMed and SPIE Digital library databases between 1 January 1945 and 13 July 2022. A total of 170 studies were retrieved and reviewed in detail, and information on the IA animal model, the objective of the study, and the imaging modality used was collected. A variety of methods to surgically construct or endogenously induce IAs in animals were identified, and 88% of the reviewed studies used surgical methods. The large majority of IA imaging in animals was performed for 4 reasons: basic research for IA models, testing of new IA treatment modalities, research on IA in vivo imaging of IAs, and research on IA pathophysiology. Six different imaging techniques were identified: conventional catheter angiography, computed tomography angiography, magnetic resonance angiography, hemodynamic imaging, optical coherence tomography, and fluorescence imaging. This review presents and discusses the advantages and disadvantages of all in vivo IA imaging techniques used in animal models to help future IA studies finding the most appropriate IA imaging modality and animal model to answer their research question. [ABSTRACT FROM AUTHOR] more...

Published
2023
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14. Chronic fructose renders pancreatic β-cells hyper-responsive to glucose-stimulated insulin secretion through extracellular ATP signaling.

Author

Bartley, Clarissa, Brun, Thierry, Oberhauser, Lucie, Grimaldi, Mariagrazia, Molica, Filippo, Kwak, Brenda R., Bosco, Domenico, Chanson, Marc, and Maechler, Pierre

Subjects
FRUCTOSE, PURINERGIC receptors, INSULIN, ISLANDS of Langerhans, SECRETION, PROTEIN kinases
Abstract

Fructose is widely used as a sweetener in processed food and is also associated with metabolic disorders, such as obesity. However, the underlying cellular mechanisms remain unclear, in particular, regarding the pancreatic β-cell. Here, we investigated the effects of chronic exposure to fructose on the function of insulinoma cells and isolated mouse and human pancreatic islets. Although fructose per se did not acutely stimulate insulin exocytosis, our data show that chronic fructose rendered rodent and human β-cells hyper-responsive to intermediate physiological glucose concentrations. Fructose exposure reduced intracellular ATP levels without affecting mitochondrial function, induced AMP-activated protein kinase activation, and favored ATP release from the β-cells upon acute glucose stimulation. The resulting increase in extracellular ATP, mediated by pannexin1 (Panx1) channels, activated the calcium-mobilizer P2Y purinergic receptors. Immunodetection revealed the presence of both Panx1 channels and P2Y1 receptors in β-cells. Addition of an ectonucleotidase inhibitor or P2Y1 agonists to naïve β-cells potentiated insulin secretion stimulated by intermediate glucose, mimicking the fructose treatment. Conversely, the P2Y1 antagonist and Panx1 inhibitor reversed the effects of fructose, as confirmed using Panx1-null islets and by the clearance of extracellular ATP by apyrase. These results reveal an important function of ATP signaling in pancreatic β-cells mediating fructoseinduced hyper-responsiveness. [ABSTRACT FROM AUTHOR] more...

Published
2019
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15. KLF4-Induced Connexin40 Expression Contributes to Arterial Endothelial Quiescence.

Author

Denis, Jean-François, Diagbouga, Mannekomba R., Molica, Filippo, Hautefort, Aurélie, Linnerz, Tanja, Watanabe, Masakatsu, Lemeille, Sylvain, Bertrand, Julien Y., and Kwak, Brenda R.

Subjects
ENDOTHELIAL cells, TRANSCRIPTION factors, IMMUNOPRECIPITATION, SHEARING force, ENDOTHELIUM
Abstract

Shear stress, a blood flow-induced frictional force, is essential in the control of endothelial cell (EC) homeostasis. High laminar shear stress (HLSS), as observed in straight parts of arteries, assures a quiescent non-activated endothelium through the induction of Krüppel-like transcription factors (KLFs). Connexin40 (Cx40)-mediated gap junctional communication is known to contribute to a healthy endothelium by propagating anti-inflammatory signals between ECs, however, the molecular basis of the transcriptional regulation of Cx40 as well as its downstream effectors remain poorly understood. Here, we show that flow-induced KLF4 regulated Cx40 expression in a mouse EC line. Chromatin immunoprecipitation in ECs revealed that KLF4 bound to three predicted KLF consensus binding sites in the Cx40 promoter. HLSS-dependent induction of Cx40 expression was confirmed in primary human ECs. The downstream effects of Cx40 modulation in ECs exposed to HLSS were elucidated by an unbiased transcriptomics approach. Cell cycle progression was identified as an important downstream target of Cx40 under HLSS. In agreement, an increase in the proportion of proliferating cell nuclear antigen (PCNA)-positive ECs and a decrease in the proportion of ECs in the G0/G1 phase were observed under HLSS after Cx40 silencing. Transfection of communication-incompetent HeLa cells with Cx40 demonstrated that the regulation of proliferation by Cx40 was not limited to ECs. Using a zebrafish model, we finally showed faster intersegmental vessel growth and branching into the dorsal longitudinal anastomotic vessel in embryos knock-out for the Cx40 orthologs Cx41.8 and Cx45.6. Most significant effects were observed in embryos with a mutant Cx41.8 encoding for a channel with reduced gap junctional function. Faster intersegmental vessel growth in Cx41.8 mutant embryos was associated with increased EC proliferation as assessed by PH3 immunostaining. Our data shows a novel evolutionary-conserved role of flow-driven KLF4-dependent Cx40 expression in endothelial quiescence that may be relevant for the control of atherosclerosis and diseases involving sprouting angiogenesis. [ABSTRACT FROM AUTHOR] more...

Published
2019
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16. Role of hemodynamics in initiation/growth of intracranial aneurysms.

Author

Diagbouga, Mannekomba R., Kwak, Brenda R., Morel, Sandrine, and Bijlenga, Philippe

Subjects
INTRACRANIAL aneurysms, SHEARING force, COMPUTATIONAL fluid dynamics, POLYCYSTIC kidney disease, PATHOLOGICAL physiology
Abstract

Abstract: Background: Intracranial aneurysm (IA) is a disease of the vascular wall resulting in abnormal enlargement of the vessel lumen. It is a common pathology with a prevalence of 2%‐3% in the adult population. IAs are mostly small, quiescent and asymptomatic; yet, upon rupture, severe brain damage or even death is frequently encountered. In addition to clinical factors, hemodynamic forces, mainly wall shear stress (WSS), have been associated with the initiation of IAs and possibly with their risk of rupture. However, the mechanism by which WSS contributes to aneurysm growth and rupture is not completely understood. Design: PubMed and Ovid MEDLINE databases were searched. In addition, key review articles were screened for relevant original publications. Results: Current knowledge about the relation between WSS and IA has been obtained from both computational fluid dynamic studies in patients and experimental models of IA formation and growth. It is increasingly recognized that a high wall shear stress (gradient) participates to IA formation and that both low and high WSS can drive IA growth. Primary cilia (PC) play an important role as mechanosensors as patients with polycystic kidney disease, which is characterized by the absence or dysfunction of PC, have increased risk to develop IAs as well as increased risk of rupture. Conclusion: Wall shear stress is a key player in IA initiation and progression. It is involved in vascular wall remodelling and inflammation, processes underlying aneurysm pathophysiology. [ABSTRACT FROM AUTHOR] more...

Published
2018
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18. Dendritic Cell Migration Toward CCL21 Gradient Requires Functional Cx43.

Author

Ruez, Richard, Dubrot, Juan, Zoso, Alice, Bacchetta, Marc, Molica, Filippo, Hugues, Stéphanie, Kwak, Brenda R., and Chanson, Marc

Subjects
DENDRITIC cells, ANTIGEN analysis, T cells, LYMPH nodes, SKIN inflammation diagnosis, LABORATORY mice
Abstract

Dendritic cells (DCs) travel through lymphatic vessels to transport antigens and present them to T cells in lymph nodes. DCs move directionally toward lymphatics by virtue of their CCR7 and a CCL21 chemotactic gradient. We evaluated in vivo and in bone marrow-derived dendritic cells (BMDCs) whether the gap junction protein Cx43 contributes to CCL21/CCR7-dependent DC migration in wild-type (WT) mice, heterozygous (Cx43+/−) mice and mice expressing a truncated form of Cx43 lacking its regulatory C-terminus (Cx43K258/−). In a model of flank skin inflammation, we found that the recruitment of myeloid DCs (mDCs) to skin draining lymph nodes was reduced in Cx43K258/− mice as compared to WT and Cx43+/− mice. In addition, the migration of Cx43K258/− BMDCs toward CCL21 was abolished in an in vitro chemotactic assay while it was only reduced in Cx43+/− cells. Both mutant genotypes showed defects in the directionality of BMDC migration as compared to WT BMDCs. No difference was found between the three populations of BMDCs in terms of expression of surfacemarkers (CD11c, CD86, CD80, CD40, MHC-II, and CCR7) after differentiation and TLR activation. Finally, examination of the CCR7-induced signaling pathways in BMDCs revealed normal receptor-induced mobilization of intracellular Ca2+. These results demonstrate that full expression of an intact Cx43 is critical to the directionality and rate of DCmigration, which may be amenable to regulation of the immune response [ABSTRACT FROM AUTHOR] more...

Published
2018
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19. Differential Association of Cx37 and Cx40 Genetic Variants in Atrial Fibrillation with and without Underlying Structural Heart Disease.

Author

Carballo, Sebastian, Pfenniger, Anna, Carballo, David, Garin, Nicolas, James, Richard W, Mach, François, Shah, Dipen, and Kwak, Brenda R

Subjects
ATRIAL fibrillation, HUMAN genetic variation, CONNEXINS, GENETIC polymorphisms, HEART diseases, GENETICS
Abstract

Atrial fibrillation (AF) appears in the presence or absence of structural heart disease. The majority of foci causing AF are located near the ostia of pulmonary veins (PVs), where cardiomyocytes and vascular smooth muscle cells interdigitate. Connexins (Cx) form gap junction channels and participate in action potential propagation. Genetic variants in genes encoding Cx40 and Cx37 affect their expression or function and may contribute to PV arrhythmogenicity. DNA was obtained from 196 patients with drug-resistant, symptomatic AF with and without structural heart disease, who were referred for percutaneous catheter ablation. Eighty-nine controls were matched for age, gender, hypertension, and BMI. Genotyping of the Cx40 -44G > A, Cx40 +71A > G, Cx40 -26A > G, and Cx37 1019C > T polymorphisms was performed. The promoter A Cx40 polymorphisms (-44G > A and +71A > G) showed no association with non-structural or structural AF. Distribution of the Cx40 promoter B polymorphism (-26A > G) was different in structural AF when compared to controls (p = 0.03). There was no significant difference with non-structural AF (p = 0.50). The distribution of the Cx37 1019C > T polymorphism was different in non-structural AF (p = 0.03) but not in structural AF (p = 0.08) when compared to controls. Our study describes for the first time an association of drug-resistant non-structural heart disease AF with the Cx37 1019C > T gene polymorphism. We also confirmed the association of the Cx40 - 26G > A polymorphism in patients with AF and structural disease. [ABSTRACT FROM AUTHOR] more...

Published
2018
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20. Role of connexin 43 in different forms of intercellular communication -- gap junctions, extracellular vesicles and tunnelling nanotubes.

Author

Ribeiro-Rodrigues, Teresa M., Martins-Marques, Tânia, Morel, Sandrine, Kwak, Brenda R., and Girão, Henrique

Subjects
CONNEXIN 43, VESICLES (Cytology), CELL communication
Abstract

Communication is important to ensure the correct and efficient flow of information, which is required to sustain active social networks. A fine-tuned communication between cells is vital to maintain the homeostasis and function of multicellular or unicellular organisms in a community environment. Although there are different levels of complexity, intercellular communication, in prokaryotes to mammalians, can occur through secreted molecules (either soluble or encapsulated in vesicles), tubular structures connecting close cells or intercellular channels that link the cytoplasm of adjacent cells. In mammals, these different types of communication serve different purposes, may involve distinct factors and are mediated by extracellular vesicles, tunnelling nanotubes or gap junctions. Recent studies have shown that connexin 43 (Cx43, also known as GJA1), a transmembrane protein initially described as a gap junction protein, participates in all these forms of communication; this emphasizes the concept of adopting strategies to maximize the potential of available resources by reutilizing the same factor in different scenarios. In this Review, we provide an overview of the most recent advances regarding the role of Cx43 in intercellular communication mediated by extracellular vesicles, tunnelling nanotubes and gap junctions. [ABSTRACT FROM AUTHOR] more...

Published
2017
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21. Exosomes secreted by cardiomyocytes subjected to ischaemia promote cardiac angiogenesis.

Author

Ribeiro-Rodrigues, Teresa M., Laundos, Tiago L., Pereira-Carvalho, Rita, Batista-Almeida, Daniela, Pereira, Ricardo, Coelho-Santos, Vanessa, Silva, Ana P., Fernandes, Rosa, Zuzarte, Monica, Enguita, Francisco J., Costa, Marina C., Pinto-do-Ó, Perpetua, Pinto, Marta T., Gouveia, Pedro, Ferreira, Lino, Mason, Justin C., Pereira, Paulo, Kwak, Brenda R., Nascimento, Diana S., and Girão, Henrique more...

Subjects
MYOCARDIAL infarction risk factors, MORTALITY, ARTERIAL occlusions, HEART cells, EXOSOMES, DISEASE risk factors
Abstract

Aims Myocardial infarction (MI) is the leading cause of morbidity and mortality worldwide and results from an obstruction in the blood supply to a region of the heart. In an attempt to replenish oxygen and nutrients to the deprived area, affected cells release signals to promote the development of new vessels and confer protection against MI. However, the mechanisms underlying the growth of new vessels in an ischaemic scenario remain poorly understood. Here, we show that cardiomyocytes subjected to ischaemia release exosomes that elicit an angiogenic response of endothelial cells (ECs). Methods and results Exosomes secreted by H9c2 myocardial cells and primary cardiomyocytes, cultured either in control or ischaemic conditions were isolated and added to ECs. We show that ischaemic exosomes, in comparison with control exosomes, confer protection against oxidative-induced lesion, promote proliferation, and sprouting of ECs, stimulate the formation of capillary-like structures and strengthen adhesion complexes and barrier properties. Moreover, ischaemic exosomes display higher levels of metalloproteases (MMP) and promote the secretion of MMP by ECs. We demonstrate that miR-222 and miR-143, the relatively most abundant miRs in ischaemic exosomes, partially recapitulate the angiogenic effect of exosomes. Additionally, we show that ischaemic exosomes stimulate the formation of new functional vessels in vivo using in ovo and Matrigel plug assays. Finally, we demonstrate that intramyocardial delivery of ischaemic exosomes improves neovascularization following MI. Conclusions This study establishes that exosomes secreted by cardiomyocytes under ischaemic conditions promote heart angiogenesis, which may pave the way towards the development of add-on therapies to enhance myocardial blood supply. [ABSTRACT FROM AUTHOR] more...

Published
2017
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22. Cx47 fine-tunes the handling of serum lipids but is dispensable for lymphatic vascular function.

Author

Meens, Merlijn J., Kutkut, Issa, Rochemont, Viviane, Dubrot, Juan, Kaladji, Fouad R., Sabine, Amélie, Lyons, Oliver, Hendrikx, Stefanie, Bernier-Latmani, Jeremiah, Kiefer, Friedemann, Smith, Alberto, Hugues, Stéphanie, Petrova, Tatiana V., and Kwak, Brenda R. more...

Subjects
BLOOD serum analysis, GAP junctions (Cell biology), CONNEXINS, LYMPHATIC physiology, PATHOLOGICAL physiology, ENDOTHELIAL cells
Abstract

Mutations in the gap junction protein connexin47 (Cx47) are associated with lymphedema. However, the role of Cx47 in lymphatic pathophysiology is unknown. We demonstrate that Cx47 is expressed in lymphatic endothelial cells by whole-mount immunostaining and qPCR. To determine if Cx47 plays a role in lymphatic vessel function we analysed Cx47-/- mice. Cx47-deficiency did not affect lymphatic contractility (contractile amplitude or frequency) or lymphatic morphology (vessel diameter or number of valves). Interstitial fluid drainage or dendritic cell migration through lymphatic vessels was also not affected by Cx47-deficiency. Cx47 is dispensable for long-chain fatty acid absorption from the gut but rather promotes serum lipid handling as prolonged elevated triglyceride levels were observed in Cx47-deficient mice after oral lipid tolerance tests. When crossed with Apolipoprotein E-deficient (Apoe-/-) mice, LDL-cholesterol was decreased in young Cx47-/-Apoe-/- adults as compared to Apoe-/- mice, which was inverted later in life. Finally, advanced atherosclerotic plaques in thoracic-abdominal aortas of 15 months-old mice tended to be larger in Cx47-/-Apoe-/- mice. These plaques contained fewer macrophages but similar amounts of T lymphocytes, collagen and lipids than plaques of Apoe-/- mice. In conclusion, Cx47 is expressed in lymphatic endothelium and seems modestly implicated in multiple aspects of lymphatic pathophysiology. [ABSTRACT FROM AUTHOR] more...

Published
2017
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23. Pannexin- and Connexin-Mediated Intercellular Communication in Platelet Function.

Author

Molica, Filippo, Stierlin, Florian B., Fontana, Pierre, and Kwak, Brenda R.

Subjects
PANNEXINS, CELL communication, CONNEXINS, ERYTHROCYTES, BONE marrow
Abstract

The three major blood cell types, i.e., platelets, erythrocytes and leukocytes, are all produced in the bone marrow. While red blood cells are the most numerous and white cells are the largest, platelets are small fragments and account for a minor part of blood volume. However, platelets display a crucial function by preventing bleeding. Upon vessel wall injury, platelets adhere to exposed extracellular matrix, become activated, and form a platelet plug preventing hemorrhagic events. However, when platelet activation is exacerbated, as in rupture of an atherosclerotic plaque, the same mechanism may lead to acute thrombosis causing major ischemic events such as myocardial infarction or stroke. In the past few years, major progress has been made in understanding of platelet function modulation. In this respect, membrane channels formed by connexins and/or pannexins are of particular interest. While it is still not completely understood whether connexins function as hemichannels or gap junction channels to inhibit platelet aggregation, there is clear-cut evidence for a specific implication of pannexin1 channels in collagen-induced aggregation. The focus of this review is to summarize current knowledge of the role of connexins and pannexins in platelet aggregation and to discuss possible pharmacological approaches along with their limitations and future perspectives for new potential therapies. [ABSTRACT FROM AUTHOR] more...

Published
2017
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24. Pannexin1 Single Nucleotide Polymorphism and Platelet Reactivity in a Cohort of Cardiovascular Patients.

Author

Stierlin, Florian B., Molica, Filippo, Reny, Jean-Luc, Kwak, Brenda R., and Fontana, Pierre

Subjects
SINGLE nucleotide polymorphisms, BLOOD platelets, CARDIOVASCULAR diseases, PANNEXINS, COLLAGEN
Abstract

Pannexin1 (Panx1), a membrane channel-forming protein permitting the passage of small-sized molecules, such as ATP, is expressed in human platelets. Recently, we showed that inhibiting Panx1 affects collagen-induced platelet aggregation but not aggregation triggered by other agonists. We also found that a single nucleotide polymorphism (SNP; rs1138800) in thePanx1gene encoded for a gain-of-function channel (Panx1-400C)and was associated with enhanced collagen-induced platelet reactivity. Here, we assessed the association of this SNP with platelet reactivity in a cohort of 758 stable cardiovascular patients from the ADRIE study treated with aspirin and/or clopidogrel. We found that presence of thePanx1-400Callele was not associated with platelet reactivity in stable cardiovascular patients, irrespective of the platelet aggregation agonist used (collagen, ADP or arachidonic acid) or the anti-platelet drug regimen. Moreover, thePanx1-400A > CSNP did also not affect the re-occurrence of cardiac ischemic events in the same stable cardiovascular patient cohort. [ABSTRACT FROM PUBLISHER] more...

Published
2017
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25. Connexins and their channels in inflammation.

Author

Willebrords, Joost, Crespo Yanguas, Sara, Maes, Michaël, Decrock, Elke, Wang, Nan, Leybaert, Luc, Kwak, Brenda R., Green, Colin R., Cogliati, Bruno, and Vinken, Mathieu

Subjects
INFLAMMATION treatment, CELLULAR signal transduction, POTASSIUM antagonists, CHRONIC disease treatment, GAP junctions (Cell biology)
Abstract

Inflammation may be caused by a variety of factors and is a hallmark of a plethora of acute and chronic diseases. The purpose of inflammation is to eliminate the initial cell injury trigger, to clear out dead cells from damaged tissue and to initiate tissue regeneration. Despite the wealth of knowledge regarding the involvement of cellular communication in inflammation, studies on the role of connexin-based channels in this process have only begun to emerge in the last few years. In this paper, a state-of-the-art overview of the effects of inflammation on connexin signaling is provided.Vice versa, the involvement of connexins and their channels in inflammation will be discussed by relying on studies that use a variety of experimental tools, such as genetically modified animals, small interfering RNA and connexin-based channel blockers. A better understanding of the importance of connexin signaling in inflammation may open up towards clinical perspectives. [ABSTRACT FROM AUTHOR] more...

Published
2016
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26. Central Role of P2Y6 UDP Receptor in Arteriolar Myogenic Tone.

Author

Kauffenstein, Gilles, Tamareille, Sophie, Prunier, Fabrice, Roy, Charlotte, Ayer, Audrey, Toutain, Bertrand, Billaud, Marie, Isakson, Brant E., Grimaud, Linda, Loufrani, Laurent, Rousseau, Pascal, Abraham, Pierre, Procaccio, Vincent, Monyer, Hannah, de Wit, Cor, Boeynaems, Jean-Marie, Robaye, Bernard, Kwak, Brenda R., and Henrion, Daniel more...

Published
2016
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28. Diabetes Mellitus Is Associated With Reduced High-Density Lipoprotein Sphingosine-1-Phosphate Content and Impaired High-Density Lipoprotein Cardiac Cell Protection.

Author

Brinck, Jonas W., Thomas, Aurélien, Lauer, Estelle, Jornayvaz, François R., Brulhart-Meynet, Marie-Claude, Prost, Jean-Christophe, Pataky, Zoltan, Löfgren, Patrik, Hoffstedt, Johan, Eriksson, Mats, Pramfalk, Camilla, Morel, Sandrine, Kwak, Brenda R., Eck, Miranda van, James, Richard W., and Frias, Miguel A. more...

Published
2016
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29. Intracranial aneurysm wall (in)stability–current state of knowledge and clinical perspectives.

Author

Morel, Sandrine, Bijlenga, Philippe, and Kwak, Brenda R.

Subjects
INTRACRANIAL aneurysms, YOUNG adults, MAGNETIC resonance imaging, SUBARACHNOID hemorrhage, CEREBRAL arteries
Abstract

Intracranial aneurysm (IA), a local outpouching of cerebral arteries, is present in 3 to 5% of the population. Once formed, an IA can remain stable, grow, or rupture. Determining the evolution of IAs is almost impossible. Rupture of an IA leads to subarachnoid hemorrhage and affects mostly young people with heavy consequences in terms of death, disabilities, and socioeconomic burden. Even if the large majority of IAs will never rupture, it is critical to determine which IA might be at risk of rupture. IA (in)stability is dependent on the composition of its wall and on its ability to repair. The biology of the IA wall is complex and not completely understood. Nowadays, the risk of rupture of an IA is estimated in clinics by using scores based on the characteristics of the IA itself and on the anamnesis of the patient. Classification and prediction using these scores are not satisfying and decisions whether a patient should be observed or treated need to be better informed by more reliable biomarkers. In the present review, the effects of known risk factors for rupture, as well as the effects of biomechanical forces on the IA wall composition, will be summarized. Moreover, recent advances in high-resolution vessel wall magnetic resonance imaging, which are promising tools to discriminate between stable and unstable IAs, will be described. Common data elements recently defined to improve IA disease knowledge and disease management will be presented. Finally, recent findings in genetics will be introduced and future directions in the field of IA will be exposed. [ABSTRACT FROM AUTHOR] more...

Published
2022
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30. Comparison between direct and reverse electroporation of cells in situ: a simulation study.

Author

Towhidi, Leila, Khodadadi, Delaram, Maimari, Nataly, Pedrigi, Ryan M., Ip, Henry, Kis, Zoltan, Kwak, Brenda R., Petrova, Tatiana W., Delorenzi, Mauro, and Krams, Rob

Subjects
ELECTROPORATION, BIOELECTROCHEMISTRY, HUMAN genome, HUMAN chromosomes, GENE regulatory networks
Abstract

The discovery of the human genome has unveiled new fields of genomics, transcriptomics, and proteomics, which has produced paradigm shifts on how to study disease mechanisms, wherein a current central focus is the understanding of how gene signatures and gene networks interact within cells. These gene function studies require manipulating genes either through activation or inhibition, which can be achieved by temporarily permeabilizing the cell membrane through transfection to deliver cDNA or RNAi. An efficient transfection technique is electroporation, which applies an optimized electric pulse to permeabilize the cells of interest. When the molecules are applied on top of seeded cells, it is called 'direct' transfection and when the nucleic acids are printed on the substrate and the cells are seeded on top of them, it is termed 'reverse' transfection. Direct transfection has been successfully applied in previous studies, whereas reverse transfection has recently gained more attention in the context of high-throughput experiments. Despite the emerging importance, studies comparing the efficiency of the two methods are lacking. In this study, a model for electroporation of cells in situ is developed to address this deficiency. The results indicate that reverse transfection is less efficient than direct transfection. However, the model also predicts that by increasing the concentration of deliverable molecules by a factor of 2 or increasing the applied voltage by 20%, reverse transfection can be approximately as efficient as direct transfection. [ABSTRACT FROM AUTHOR] more...

Published
2016
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32. Sphingosine-1-phosphate reduces ischaemia-- reperfusion injury by phosphorylating the gap junction protein Connexin43.

Author

Morel, Sandrine, Christoffersen, Christina, Axelsen, Lene N., Montecucco, Fabrizio, Rochemont, Viviane, Frias, Miguel A., Mach, Francois, James, Richard W., Naus, Christian C., Chanson, Marc, Lampe, Paul D., Nielsen, Morten S., Nielsen, Lars B., and Kwak, Brenda R. more...

Subjects
SPHINGOSINE-1-phosphate, ISCHEMIA, REPERFUSION injury, PHOSPHORYLATION, GAP junctions (Cell biology), CONNEXIN 43, LIPOPROTEINS, HEART cells
Abstract

Aim Increasing evidence points to lipoprotein composition rather than reverse cholesteroltransport in the cardioprotective properties of high-density lipoproteins (HDLs). HDL binding to receptors at the surface of cardiomyocytes activates signalling pathways promoting survival, but downstream targets are largely unknown. Here, we investigate the pathways by which the sphingosine-1-phosphate (S1P) constituent of HDL limits cell death induced by cardiac ischaemiareperfusion (I/R). Methods and results Apolipoprotein M (ApoM) transgenic (Apom-Tg) mice, in which plasma S1P is increased by 296%, and wild-type (WT) mice were subjected to in vivo I/R. Infarct size, neutrophil infiltration into the infarcted area, and serum Troponin I were less pronounced in Apom-Tg mice. In vitro experiments suggest that this cardioprotection depends on direct effects of S1P on cardiomyocytes, whereas leucocyte recruitment seems only indirectly affected. Importantly, short-term S1P treatment at the onset of reperfusion was sufficient to reduce I/R injury in isolated perfused hearts. Mechanistic in vitro and ex vivo studies revealed that 5 min of S1P treatment induced phosphorylation of the gap junction protein Connexin43 (Cx43) on Serine368 (S368), which was mediated by S1P2 and S1P3, but not by S1P1, receptors in cardiomyocytes. Finally, S1P-induced reduction of infarct size after ex vivo I/R was lost in hearts of mice with a truncated C-terminus of Cx43 (Cx43K258/KO) or in which the S368 is mutated to a non-phosphorylatable alanine (Cx43S368A/S368A). Conclusion Our study reveals an important molecular pathway by which modulating the apoM/S1P axis has a therapeutic potential in the fight against I/R injury in the heart. [ABSTRACT FROM AUTHOR] more...

Published
2016
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33. Novel methodologies for biomarker discovery in atherosclerosis.

Author

Hoefer, Imo E., Steffens, Sabine, Ala-Korpela, Mika, Bäck, Magnus, Badimon, Lina, Bochaton-Piallat, Marie-Luce, Boulanger, Chantal M., Caligiuri, Giuseppina, Dimmeler, Stefanie, Egido, Jesus, Evans, Paul C., Guzik, Tomasz, Kwak, Brenda R., Landmesser, Ulf, Mayr, Manuel, Monaco, Claudia, Pasterkamp, Gerard, Tuñón, Jose, and Weber, Christian more...

Abstract

Identification of subjects at increased risk for cardiovascular events plays a central role in the worldwide efforts to improve prevention, prediction, diagnosis, and prognosis of cardiovascular disease and to decrease the related costs. Despite their high predictive value on population level, traditional risk factors fail to fully predict individual risk. This position paper provides a summary of current vascular biomarkers other than the traditional risk factors with a special focus on the emerging 2omics technologies. The definition of biomarkers and the identification and use of classical biomarkers are introduced, and we discuss the limitations of current biomarkers such as high sensitivity C-reactive protein (hsCRP) or N-terminal pro-brain natriuretic peptide (NT-proBNP). This is complemented by circulating plasma biomarkers, including high-density lipoprotein (HDL), and the conceptual shift from HDL cholesterol levels to HDL composition/function for cardiovascular risk assessment. Novel sources for plasma-derived markers include microparticles, microvesicles, and exosomes and their use for current omics-based analytics. Measurement of circulating micro-RNAs, short RNA sequences regulating gene expression, has attracted major interest in the search for novel biomarkers. Also, mass spectrometry and nuclear magnetic resonance spectroscopy have become key complementary technologies in the search for new biomarkers, such as proteomic searches or identification and quantification of small metabolites including lipids (metabolomics and lipidomics). In particular, pro-inflammatory lipid metabolites have gained much interest in the cardiovascular field. Our consensus statement concludes on leads and needs in biomarker research for the near future to improve individual cardiovascular risk prediction. [ABSTRACT FROM AUTHOR] more...

Published
2015
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34. Atherosclerosis severity is not affected by a deficiency in IL-33/ST2 signaling.

Author

Martin, Praxedis, Palmer, Gaby, Rodriguez, Emiliana, Woldt, Estelle, Mean, Isabelle, James, Richard W., Smith, Dirk E., Kwak, Brenda R., and Gabay, Cem

Subjects
INTERLEUKIN-33, ATHEROSCLEROSIS, APOLIPOPROTEIN E, CHOLESTEROL in the body, LYMPH nodes, LABORATORY mice
Abstract

Interleukin (IL)-33 is a cytokine of the IL-1 family, which signals through the ST2 receptor. Previous work demonstrated that the systemic administration of recombinant IL-33 reduces the development of atherosclerosis in apolipoprotein E-deficient (ApoE−/−) mice by inducing a Th1-to-Th2 shift. The objective of our study was to examine the role of endogenous IL-33 and ST2 in atherosclerosis. ApoE−/−, IL-33−/−ApoE−/−, and ST2−/−ApoE−/− mice were fed with a cholesterol-rich diet for 10 weeks. Additionally, a group of ApoE−/− mice was injected with a neutralizing anti-ST2 or an isotype control antibody during the period of the cholesterol-rich diet. Atherosclerotic lesion development was measured by Oil Red O staining in the thoracic-abdominal aorta and the aortic sinus. There were no significant differences in the lipid-staining area of IL-33−/−ApoE−/−, ST2−/−ApoE−/−, or anti-ST2 antibody-treated ApoE−/− mice, compared to ApoE−/− controls. The absence of IL-33 signaling had no major and consistent impact on the Th1/Th2 cytokine responses in the supernatant of in vitro-stimulated lymph node cells. In summary, deficiency of the endogenously produced IL-33 and its receptor ST2 does not impact the development of atherosclerosis in ApoE-deficient mice. [ABSTRACT FROM AUTHOR] more...

Published
2015
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36. Endothelial Connexin37 and Connexin40 participate in basal but not agonist-induced NO release.

Author

Meens, Merlijn J., Alonso, Florian, Le Gal, Loïc, Kwak, Brenda R., and Haefliger, Jacques-Antoine

Subjects
ENDOTHELIUM-derived constricting factor, NITRIC oxide analysis, CONNEXIN genetics, MEMBRANE proteins, CELL communication, ENDOTHELIAL cells
Abstract

Background: Connexin37 (Cx37) and Cx40 are crucial for endothelial cell-cell communication and homeostasis. Both connexins interact with endothelial nitric oxide synthase (eNOS). The exact contribution of these interactions to the regulation of vascular tone is unknown. Results: Cx37 and Cx40 were expressed in close proximity to eNOS at cell-cell interfaces of mouse aortic endothelial cells. Absence of Cx37 did not affect expression of Cx40 and a 50 % reduction of Cx40 in Cx40+/- aortas did not affect the expression of Cx37. However, absence of Cx40 was associated with reduced expression of Cx37. Basal NO release and the sensitivity for ACh were decreased in Cx37-/- and Cx40-/- aortas but not in Cx40+/- aortas. Moreover, ACh-induced release of constricting cyclooxygenase products was present in WT, Cx40-/- and Cx40+/- aortas but not in Cx37-/- aortas. Finally, agonist-induced NO-dependent relaxations and the sensitivity for exogenous NO were not affected by genotype. Conclusions: Cx37 is more markedly involved in basal NO release, release of cyclooxygenase products and the regulation of the sensitivity for ACh as compared to Cx40. [ABSTRACT FROM AUTHOR] more...

Published
2015
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39. Lymphatic vessels: an emerging actor in atherosclerotic plaque development.

Author

Kutkut, Issa, Meens, Merlijn J., McKee, Thomas A., Bochaton‐Piallat, Marie‐Luce, and Kwak, Brenda R.

Subjects
ATHEROSCLEROTIC plaque, ATHEROSCLEROSIS risk factors, LYMPHATICS, ATHEROSCLEROSIS treatment, DISEASE progression, CHOLESTEROL metabolism, IMMUNE response, DISEASE risk factors
Abstract

Background Atherosclerosis is a chronic inflammatory disease of large- to medium-sized arteries and is the main underlying cause of death worldwide. The lymphatic vasculature is critical for processes that are intimately linked to atherogenesis such as the immune response and cholesterol metabolism. However, whether lymphatic vessels truly contribute to the pathogenesis of atherosclerosis is less clear despite increasing research efforts in this field. Design PubMed and Ovid MEDLINE databases were searched. In addition, key review articles were screened for relevant original publications. Results Current knowledge about lymphatic vessels in the arterial wall came from studies that examined the presence and location of such vessels in human atherosclerotic plaque specimens, as well as in a variety of arteries in animal models for atherosclerosis (e.g. rabbits, dogs, rats and mice). Generally, three experimental approaches have been used to investigate the functional role of plaque-associated lymphatic vessels; experimental lymphostasis was used to investigate lymphatic drainage of the arterial wall, and more recently, studies with genetic interventions and/or surgical transplantation have been performed. Conclusions Lymphatic vessels seem to be mostly present in the adventitial layer of the arterial walls of animals and humans. They are involved in reverse cholesterol transport from atherosclerotic lesions, and arteries with a dense lymphatic network seem naturally protected against atherosclerosis. Lymphangiogenesis is a process that is an important part of the inflammatory loop in atherosclerosis. However, how augmenting or impeding the distribution of lymphatic vessels impacts disease progression remains to be investigated in future studies. [ABSTRACT FROM AUTHOR] more...

Published
2015
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40. Biomechanical factors in atherosclerosis: mechanisms and clinical implications†.

Author

Kwak, Brenda R., Bäck, Magnus, Bochaton-Piallat, Marie-Luce, Caligiuri, Giuseppina, Daemen, Mat J.A.P., Davies, Peter F., Hoefer, Imo E., Holvoet, Paul, Jo, Hanjoong, Krams, Rob, Lehoux, Stephanie, Monaco, Claudia, Steffens, Sabine, Virmani, Renu, Weber, Christian, Wentzel, Jolanda J., and Evans, Paul C. more...

Abstract

Blood vessels are exposed to multiple mechanical forces that are exerted on the vessel wall (radial, circumferential and longitudinal forces) or on the endothelial surface (shear stress). The stresses and strains experienced by arteries influence the initiation of atherosclerotic lesions, which develop at regions of arteries that are exposed to complex blood flow. In addition, plaque progression and eventually plaque rupture is influenced by a complex interaction between biological and mechanical factors—mechanical forces regulate the cellular and molecular composition of plaques and, conversely, the composition of plaques determines their ability to withstand mechanical load. A deeper understanding of these interactions is essential for designing new therapeutic strategies to prevent lesion development and promote plaque stabilization. Moreover, integrating clinical imaging techniques with finite element modelling techniques allows for detailed examination of local morphological and biomechanical characteristics of atherosclerotic lesions that may be of help in prediction of future events. In this ESC Position Paper on biomechanical factors in atherosclerosis, we summarize the current ‘state of the art’ on the interface between mechanical forces and atherosclerotic plaque biology and identify potential clinical applications and key questions for future research. [ABSTRACT FROM PUBLISHER] more...

Published
2014
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41. Mutations in cardiovascular connexin genes.

Author

Molica, Filippo, Meens, Merlijn J.P., Morel, Sandrine, and Kwak, Brenda R.

Subjects
PELIZAEUS-merzbacher disease, CARDIOVASCULAR diseases, MEDICAL genetics, CONNEXINS, GENETIC mutation, GAP junctions (Cell biology)
Abstract

Connexins (Cxs) form a family of transmembrane proteins comprising 21 members in humans. Cxs differ in their expression patterns, biophysical properties and ability to combine into homomeric or heteromeric gap junction channels between neighbouring cells. The permeation of ions and small metabolites through gap junction channels or hemichannels confers a crucial role to these proteins in intercellular communication and in maintaining tissue homeostasis. Among others, Cx37, Cx40, Cx43, Cx45 and Cx47 are found in heart, blood and lymphatic vessels. Mutations or polymorphisms in the genes coding for these Cxs have not only been implicated in cardiovascular pathologies but also in a variety of other disorders. While mutations in Cx43 are mostly linked to oculodentodigital dysplasia, Cx47 mutations are associated with Pelizaeus-Merzbacher-like disease and lymphoedema. Cx40 mutations are principally linked to atrial fibrillation. Mutations in Cx37 have not yet been described, but polymorphisms in the Cx37 gene have been implicated in the development of arterial disease. This review addresses current knowledge on gene mutations in cardiovascular Cxs systematically and links them to alterations in channel properties and disease. [ABSTRACT FROM AUTHOR] more...

Published
2014
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43. In Vivo Mapping of Vascular Inflammation Using the Translocator Protein Tracer 18F-FEDAA1106.

Author

Cuhlmann, Simon, Gsell, Willy, Van der Heiden, Kim, Habib, Josef, Tremoleda, Jordi L., Khalil, Magdy, Turkheimer, Federico, Meens, Merlijn J., Kwak, Brenda R., Bird, Joseph, Davenport, Anthony P., Clark, John, Haskard, Dorian, Krams, Rob, Jones, Hazel, and Evans, Paul C. more...

Subjects
VASCULITIS, TRANSLOCATOR proteins, NONINVASIVE diagnostic tests, ATHEROSCLEROTIC plaque, MACROPHAGE activation, CAROTID artery disease diagnosis, IMMUNOSTAINING, DIAGNOSIS
Abstract

Noninvasive imaging methods are required to monitor the inflammatory content of atherosclerotic plaques. FEDAA1106 (N-(5-fluoro-2-phenoxyphenyl)-N-(2-(2-fluoroethoxy)-5-methoxybenzyl) acetamide) is a selective ligand for TSPO-18kDa (also known as peripheral benzodiazepine receptor), which is expressed by activated macrophages. We compared 18F-FEDAA1106 and 2-deoxy-2-[18F]fluoro-D-glucose (18F-FDG, a marker of glucose metabolism) for positron emission tomographic (PET) imaging of vascular inflammation. This was tested using a murine model in which focal inflammation was induced in the carotid artery via placement of a constrictive cuff. Immunostaining revealed CD68-positive cells (macrophages) at a disturbed flow site located downstream from the cuff. Dynamic PET imaging using 18F-FEDAA1106 or 18F-FDG was registered to anatomic data generated by computed tomographic (CT)/CT angiography. Standardized uptake values were significantly increased at cuffed compared to contralateral arteries using either 18F-FEDAA1106 (p < .01) or FDG (p < .05). However, the 18F-FEDAA1106 signal was significantly higher at the inflamed disturbed flow region compared to the noninflamed uniform flow regions, whereas differences in FDG uptake were less distinct. We conclude that 18F-FEDAA1106 can be used in vivo for detection of vascular inflammation. Moreover, the signal pattern of 18F-FEDAA1106 corresponded with vascular inflammation more specifically than FDG uptake. [ABSTRACT FROM AUTHOR] more...

Published
2014
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44. In Vivo Mapping of Vascular Inflammation Using the Translocator Protein Tracer 18F-FEDAA1106.

Author

Cuhlmann, Simon, Gsell, Willy, Van der Heiden, Kim, Habib, Josef, Tremoleda, Jordi L., Khalil, Magdy, Turkheimer, Federico, Meens, Merlijn J., Kwak, Brenda R., Bird, Joseph, Davenport, Anthony P., Clark, John, Haskard, Dorian, Krams, Rob, Jones, Hazel, and Evans, Paul C. more...

Abstract

Noninvasive imaging methods are required to monitor the inflammatory content of atherosclerotic plaques. FEDAA1106 (N-(5-fluoro- 2-phenoxyphenyl)-N-(2-(2-fluoroethoxy)-5-methoxybenzyl) acetamide) is a selective ligand for TSPO-18kDa (also known as peripheral benzodiazepine receptor), which is expressed by activated macrophages. We compared 18F-FEDAA1106 and 2-deoxy-2-[18F]fluoro-Dglucose (18F-FDG, a marker of glucose metabolism) for positron emission tomographic (PET) imaging of vascular inflammation. This was tested using a murine model in which focal inflammation was induced in the carotid artery via placement of a constrictive cuff. Immunostaining revealed CD68-positive cells (macrophages) at a disturbed flow site located downstream from the cuff. Dynamic PET imaging using 18F-FEDAA1106 or 18F-FDG was registered to anatomic data generated by computed tomographic (CT)/CT angiography. Standardized uptake values were significantly increased at cuffed compared to contralateral arteries using either 18F-FEDAA1106 (p < .01) or FDG (p < .05). However, the 18F-FEDAA1106 signal was significantly higher at the inflamed disturbed flow region compared to the noninflamed uniform flow regions, whereas differences in FDG uptake were less distinct. We conclude that 18F-FEDAA1106 can be used in vivo for detection of vascular inflammation. Moreover, the signal pattern of 18F-FEDAA1106 corresponded with vascular inflammation more specifically than FDG uptake. [ABSTRACT FROM AUTHOR] more...

Published
2014
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45. Connexins in lymphatic vessel physiology and disease.

Author

Meens, Merlijn J., Sabine, Amélie, Petrova, Tatiana V., and Kwak, Brenda R.

Subjects
CONNEXINS, LYMPHATIC physiology, LYMPHATIC diseases, GAP junctions (Cell biology), CELL membranes, SMALL molecules
Abstract

Abstract: Connexins are transmembrane proteins that form gap junction- and hemi-channels. Once inserted into the membrane, hemi-channels (connexons) allow for diffusion of ions and small molecules (<1kDa) between the extracellular space and the cytosol. Gap junction channels allow diffusion of similar molecules between the cytoplasms of adjacent cells. The expression and function of connexins in blood vessels has been intensely studied in the last few decades. In contrast, only a few studies paid attention to lymphatic vessels; convincing in vivo data with respect to expression patterns of lymphatic connexins and their functional roles have only recently begun to emerge. Interestingly, mutations in connexin genes have been linked to diseases of lymphatic vasculature, most notably primary and secondary lymphedema. This review summarizes the available data regarding lymphatic connexins. More specifically it addresses (i) early studies aimed at presence of gap junction-like structures in lymphatic vessels, (ii) more recent studies focusing on lymphatic connexins using genetically engineered mice, and (iii) results of clinical studies that have reported lymphedema-linked mutations in connexin genes. [Copyright &y& Elsevier] more...

Published
2014
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46. Stabilization of atherosclerotic plaques: an update.

Author

Ylä-Herttuala, Seppo, Bentzon, Jacob Fog, Daemen, Mat, Falk, Erling, Garcia-Garcia, Hector M., Herrmann, Joerg, Hoefer, Imo, Jauhiainen, Suvi, Jukema, J. Wouter, Krams, Rob, Kwak, Brenda R., Marx, Nikolaus, Naruszewicz, Marek, Newby, Andrew, Pasterkamp, Gerard, Serruys, Patrick W.J.C., Waltenberger, Johannes, Weber, Christian, and Tokgözoglu, Lale more...

Published
2013

47. Regulation of cardiovascular connexins by mechanical forces and junctions.

Author

Meens, Merlijn J., Pfenniger, Anna, Kwak, Brenda R., and Delmar, Mario

Subjects
CARDIOVASCULAR disease treatment, CONNEXIN genetics, MEMBRANE proteins, GENE expression, CELL physiology, CELL junctions, BIOMECHANICS, LABORATORY mice
Abstract

Connexins form a family of transmembrane proteins that consists of 20 members in humans and 21 members in mice. Six connexins assemble into a connexon that can function as a hemichannel or connexon that can dock to a connexon expressed by a neighbouring cell, thereby forming a gap junction channel. Such intercellular channels synchronize responses in multicellular organisms through direct exchange of ions, small metabolites, and other second messenger molecules between the cytoplasms of adjacent cells. Multiple connexins are expressed in the cardiovascular system. These connexins not only experience the different biomechanical forces within this system, but may also act as effector proteins in co-ordinating responses within groups of cells towards these forces. This review discusses recent insights regarding regulation of cardiovascular connexins by mechanical forces and junctions. It specifically addresses effects of (i) shear stress on endothelial connexins, (ii) hypertension on vascular connexins, and (iii) changes in afterload and the composition of myocardial mechanical junctions on cardiac connexins. [ABSTRACT FROM AUTHOR] more...

Published
2013
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48. The natural cardioprotective particle HDL modulates connexin43 gap junction channels.

Author

Morel, Sandrine, Frias, Miguel A., Rosker, Christian, James, Richard W., Rohr, Stephan, and Kwak, Brenda R.

Subjects
CARDIOTONIC agents, HIGH density lipoproteins, CONNEXINS, GAP junctions (Cell biology), PHOSPHORYLATION, HEART cells, IMMUNOFLUORESCENCE
Abstract

Aims High-density lipoprotein (HDL) is known for its cardioprotective properties independent from its cholesterol transport activity. These properties are mediated by activation of kinases such as protein kinase C (PKC). Connexin43 (Cx43) is a gap junction protein present in ventricular cardiomyocytes. PKC-dependent phosphorylation modifies Cx43 gap junction channel properties and is involved in cardioprotection. We hypothesized that cardioprotective properties of HDL may be mediated in part by affecting Cx43 gap junction channels. Methods and results Neonatal rat cardiomyocytes were treated with HDL and Cx43 phosphorylation was evaluated by western blotting and immunofluorescence. We found that HDL promoted phosphorylation of Cx43 with a maximal induction at 5 min, which was inhibited by pre-treatment with various PKC inhibitors. Sphingosine-1-phosphate (S1P), a component of HDL, induced effects that were similar to those of HDL. These compounds significantly reduced diffusion of fluorescent dye among cardiomyocytes (∼50%) which could be prevented by PKC inhibition. As observed during optical recordings of transmembrane voltage, HDL and S1P depressed impulse conduction only minimally (<5%). Moreover, 5 min of HDL and S1P treatment at the onset of reperfusion significantly reduced infarct size (∼50%) in response to 30 min ischaemia in ex vivo experiments. Conclusion Short-term treatment with HDL or S1P induces phosphorylation of Cx43 by a PKC-dependent pathway. HDL-induced phosphorylation of Cx43 reduced the diffusion of large tracer molecules between cells, whereas impulse conduction was maintained. Moreover, 5 min treatment with HDL confers cardioprotection against ischaemia/reperfusion injury. These results link Cx43 for the first time to the short-term cardioprotective effects of HDL. [ABSTRACT FROM AUTHOR] more...

Published
2012
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50. Connexin Channel-Dependent Signaling Pathways in Inflammation.

Author

Scheckenbach, K. E. Ludwig, Crespin, Sophie, Kwak, Brenda R., and Chanson, Marc

Subjects
CONNEXINS, INFLAMMATION, LEUKOCYTES, TISSUES, ATHEROSCLEROSIS, ADENOSINE triphosphate, CEREBRAL ischemia, PHYSIOLOGY, DISEASES
Abstract

Inflammation is a highly regulated process with common but also specific characteristics in each tissue affected. Recruitment of leukocytes from the blood to the injured tissue is an important early step in the inflammatory cascade. This review highlights the role of connexins (Cxs) in the regulation of both acute and chronic inflammatory processes. Cxs form gap junction channels that provide a cytoplasmic continuity between adjacent cells allowing the intercellular exchange of ions and metabolites. Their structural halves form connexons or hemichannels. Each of them consists of 6 Cx proteins and hemichannels not taking part in gap junction formation but facilitating the release of small molecules such as ATP. Based on the differential distribution of various Cxs in different tissues such as the brain, lung capillaries and large blood vessels, our aim was to analyze the specific roles of Cxs in the inflammatory process in these tissues. Three typical sites of inflammation were chosen to shed light on similarities and differences in several types of responses: (1) atherosclerosis as a model for chronic inflammation, (2) the lung as an example of acute inflammation and (3) the 'immune-privileged' environment of the brain to highlight specific reactions of the vasculature to ischemic damage and inflammation at this site. Copyright © 2010 S. Karger AG, Basel [ABSTRACT FROM AUTHOR] more...

Published
2011
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