Your search keyword '"Dupont, Emmanuel"' showing total 11 results

1. Influence of v5/6-His tag on the properties of gap junction channels composed of connexin43, connexin40 or connexin45.

Author

Desplantez, Thomas, Halliday, Deborah, Dupont, Emmanuel, Severs, Nicholas, Weingart, Robert, and Severs, Nicholas J

Subjects

AMINO acids, GAP junctions (Cell biology), CONNEXINS, MEMBRANE proteins, CARBOXYLIC acids, IMMUNOBLOTTING, CYTOPLASM, ELECTRIC properties of cells, CELL membranes, CELLS, COMPARATIVE studies, ELECTROPHYSIOLOGY, FLUORESCENT antibody technique, IMMUNOHISTOCHEMISTRY, RESEARCH methodology, MEDICAL cooperation, RECOMBINANT proteins, RESEARCH, RESEARCH funding, WESTERN immunoblotting, EVALUATION research

Abstract

HeLa cells expressing wild-type connexin43, connexin40 or connexin45 and connexins fused with a V5/6-His tag to the carboxyl terminus (CT) domain (Cx43-tag, Cx40-tag, Cx45-tag) were used to study connexin expression and the electrical properties of gap junction channels. Immunoblots and immunolabeling indicated that tagged connexins are synthesized and targeted to gap junctions in a similar manner to their wild-type counterparts. Voltage-clamp experiments on cell pairs revealed that tagged connexins form functional channels. Comparison of multichannel and single-channel conductances indicates that tagging reduces the number of operational channels, implying interference with hemichannel trafficking, docking and/or channel opening. Tagging provoked connexin-specific effects on multichannel and single-channel properties. The Cx43-tag was most affected and the Cx45-tag, least. The modifications included (1) V(j)-sensitive gating of I(j) (V(j), gap junction voltage; I(j), gap junction current), (2) contribution and (3) kinetics of I(j) deactivation and (4) single-channel conductance. The first three reflect alterations of fast V(j) gating. Hence, they may be caused by structural and/or electrical changes on the CT that interact with domains of the amino terminus and cytoplasmic loop. The fourth reflects alterations of the ion-conducting pathway. Conceivably, mutations at sites remote from the channel pore, e.g., 6-His-tagged CT, affect protein conformation and thus modify channel properties indirectly. Hence, V5/6-His tagging of connexins is a useful tool for expression studies in vivo. However, it should not be ignored that it introduces connexin-dependent changes in both expression level and electrophysiological properties. [ABSTRACT FROM AUTHOR]

Published

2011

2. Remodelling of gap junctions and connexin expression in diseased myocardium.

Author

Severs, Nicholas J., Bruce, Alexandra F., Dupont, Emmanuel, and Rothery, Stephen

Subjects

GAP junctions (Cell biology), CELLS, CONNEXINS, GENES, MUSCLE cells, GENETIC mutation, HEART diseases, ELECTROPHYSIOLOGY

Abstract

Gap junctions form the cell-to-cell pathways for propagation of the precisely orchestrated patterns of current flow that govern the regular rhythm of the healthy heart. As in most tissues and organs, multiple connexin types are expressed in the heart: connexin43 (Cx43), Cx40 and Cx45 are found in distinctive combinations and relative quantities in different, functionally-specialized subsets of cardiac myocyte. Mutations in genes that encode connexins have only rarely been identified as being a cause of human cardiac disease, but remodelling of connexin expression and gap junction organization are well documented in acquired adult heart disease, notably ischaemic heart disease and heart failure. Remodelling may take the form of alterations in (i) the distribution of gap junctions and (ii) the amount and type of connexins expressed. Heterogeneous reduction in Cx43 expression and disordering in gap junction distribution feature in human ventricular disease and correlate with electrophysiologically identified arrhythmic changes and contractile dysfunction in animal models. Disease-related alterations in Cx45 and Cx40 expression have also been reported, and some of the functional implications of these are beginning to emerge. Apart from ventricular disease, various features of gap junction organization and connexin expression have been implicated in the initiation and persistence of the most common form of atrial arrhythmia, atrial fibrillation, though the disparate findings in this area remain to be clarified. Other major tasks ahead focus on the Purkinje/working ventricular myocyte interface and its role in normal and abnormal impulse propagation, connexin-interacting proteins and their regulatory functions, and on defining the precise functional properties conferred by the distinctive connexin co-expression patterns of different myocyte types in health and disease. [ABSTRACT FROM PUBLISHER]

Published

2008

3. Gap junction remodelling in human heart failure is associated with increased interaction of connexin43 with ZO-1.

Author

Bruce, Alexandra F., Rothery, Stephen, Dupont, Emmanuel, and Severs, Nicholas J.

Subjects

GAP junctions (Cell biology), HEART failure, CONNEXINS, ARRHYTHMIA, TIGHT junctions

Abstract

Aims: Remodelling of gap junctions, involving reduction of total gap junction quantity and down-regulation of connexin43 (Cx43), contributes to the arrhythmic substrate in congestive heart failure. However, little is known of the underlying mechanisms. Recent studies from in vitro systems suggest that the connexin-interacting protein zonula occludens-1 (ZO-1) is a potential mediator of gap junction remodelling. We therefore examined the hypothesis that ZO-1 contributes to reduced expression of Cx43 gap junctions in congestive heart failure. [ABSTRACT FROM PUBLISHER]

Published

2008

4. Coexpression of Connexin45 with Connexin43 Decreases Gap Junction Size.

Author

Grikscheit, Katharina, Thomas, Neil, Bruce, Alexandra F., Rothery, Stephen, Chan, Joachim, Severs, Nicholas J., and Dupont, Emmanuel

Subjects

HEART, MUSCLE cells, CONNEXINS, CONGESTIVE heart failure, GAP junctions (Cell biology), CELL lines, ANIMAL models in research

Abstract

In the human heart, ventricular myocytes express connexin43 (Cx43) and traces of Cx45. In congestive heart failure, Cx43 levels decrease, Cx45 levels increase and gap junction size decreases. To determine whether alterations of connexin coexpression ratio influence gap junction size, we engineered a rat liver epithelial cell line that endogenously expresses Cx43 to coexpress inducible levels of Cx45 under stimulation of the insect hormone, ponasterone A. In cells induced to express Cx45, gap junction sizes are significantly reduced (by 15% to 20%; p < 0.001), an effect that occurs despite increased levels of junctional connexons made from both connexins. In contrast, coexpression of Cx40 with Cx43 does not lead to any change in gap junction size. These results are consistent with the idea that increased Cx45 expression in the failing ventricle contributes to decreased gap junction size. [ABSTRACT FROM AUTHOR]

Published

2008

5. Gap Junction Channels and Cardiac Impulse Propagation.

Author

Desplantez, Thomas, Dupont, Emmanuel, Severs, Nicholas J., and Weingart, Robert

Subjects

*GAP junctions (Cell biology), *CONNEXINS, *HEART cells, *HEART cytology, *CELLS, *MEMBRANE proteins

Abstract

The role of gap junction channels on cardiac impulse propagation is complex. This review focuses on the differential expression of connexins in the heart and the biophysical properties of gap junction channels under normal and disease conditions. Structural determinants of impulse propagation have been gained from biochemical and immunocytochemical studies performed on tissue extracts and intact cardiac tissue. These have defined the distinctive connexin coexpression patterns and relative levels in different cardiac tissues. Functional determinants of impulse propagation have emerged from electrophysiological experiments carried out on cell pairs. The static properties (channel number and conductance) limit the current flow between adjacent cardiomyocytes and thus set the basic conduction velocity. The dynamic properties (voltage-sensitive gating and kinetics of channels) are responsible for a modulation of the conduction velocity during propagated action potentials. The effect is moderate and depends on the type of Cx and channel. For homomeric-homotypic channels, the influence is small to medium; for homomeric-heterotypic channels, it is medium to strong. Since no data are currently available on heteromeric channels, their influence on impulse propagation is speculative. The modulation by gap junction channels is most prominent in tissues at the boundaries between cardiac tissues such as sinoatrial node-atrial muscle, atrioventricular node-His bundle, His bundle-bundle branch and Purkinje fibers-ventricular muscle. The data predict facilitation of orthodromic propagation. [ABSTRACT FROM AUTHOR]

Published

2007

6. Human atrial conduction and arrhythmogenesis correlates with conformational exposure of specific epitopes on the connexin40 carboxyl tail

Author

Kanagaratnam, Prapa, Dupont, Emmanuel, Rothery, Stephen, Coppen, Steven, Severs, Nicholas J, and Peters, Nicholas S

Subjects

*GAP junctions (Cell biology), *CARDIAC contraction, *ATRIAL fibrillation, *PREDICATE calculus

Abstract

Abstract: Background. – Gap junction expression is considered to influence myocardial conduction and arrhythmogenesis, but studies in patients with atrial fibrillation (AF) have reported inconsistent results. We used human atrial conduction and arrhythmogenicity to provide clinical parameters with which to correlate quantification of connexin40 (Cx40) by different techniques to address the hypothesis that antibody–epitope binding properties may influence quantification methods. Methods and results. – Atrial conduction properties were studied in patients undergoing coronary artery bypass grafting (N =27) using multi-electrode array mapping. Patients were defined as having a vulnerable atrial substrate if pacing-induced AF lasted for more than 30 s. Using antibodies targeted at two different epitopes of the cytoplasmic carboxyl tail, Cx40 signal was quantified by immunoconfocal microscopy in biopsies taken from the mapped atria. Only patients with a vulnerable substrate subsequently developed post-operative AF (P <0.02). Immunoconfocal Cx40 signal measured by one antibody, designated S15C(R85), was lower in patients with sustained induced AF (0.013±0.009 μm2/μm2 vs. 0.024±0.010 μm2/μm2, P =0.005) and was negatively correlated with atrial conduction velocity during sinus rhythm (P <0.05). However, these relationships did not exist when the Cx40 signal was measured using a different antibody (Y21Y(R968)). Further studies suggested that quantification technique was reproducible against the same epitope (P <0.001) but not against different epitopes indicating variable exposure of C×40 epitopes. Conclusions. – Quantification of Cx40 by immunoconfocal microscopy appears to be epitope dependent and evidence of epitope masking raises the possibility of more than one conformational form of the Cx40 carboxyl tail, suggesting functionally important conformations of the protein. [Copyright &y& Elsevier]

Published

2006

7. Cardiac connexins Cx43 and Cx45: formation of diverse gap junction channels with diverse electrical properties.

Author

Desplantez, Thomas, Halliday, Deborah, Dupont, Emmanuel, and Weingart, Robert

Subjects

CONNEXINS, VOLTAGE-clamp techniques (Electrophysiology), GAP junctions (Cell biology), CELLS, HEART, MEMBRANE proteins

Abstract

HeLa cells expressing rat connexin43 (Cx43) and/or mouse Cx45 were studied with the dual voltage-clamp technique. Different types of cell pairs were established and their gap junction properties determined, i.show $132#e. the dependence of the instantaneous and steady-state conductances (gj,inst, gj,ss) on the transjunctional voltage (Vj) and the kinetics of inactivation of the gap junction current (Ij). Pairs of singly transfected cells showed homogeneous behaviour at both Vj polarities. Homotypic Cx43-Cx43 and Cx45-Cx45 cell pairs yielded distinct symmetrical functions gj,inst=f(Vj) and gj,ss=f(Vj). Heterotypic Cx43-Cx45 preparations exhibited asymmetric functions gj,inst=f(Vj) and gj,ss=f(Vj) suggesting that connexons Cx43 and Cx45 gate with positive and negative Vj, respectively. Preparations containing a singly (Cx43 or Cx45) or doubly (Cx43/45) transfected cell showed quasi-homogeneous behaviour at one Vj polarity and heterogeneous behaviour at the other polarity. The former yielded Boltzmann parameters intermediate between those of Cx43-Cx43, Cx45-Cx45 and Cx43-Cx45 preparations; the latter could not be explained by homotypic and heterotypic combinations of homomeric connexons. Each pair of doubly transfected cells (Cx43/Cx45) yielded unique functions gj,inst=f(Vj) and gj,ss=f(Vj). This can not be explained by combinations of homomeric connexons. We conclude that Cx43 and Cx45 form homomeric-homotypic, homomeric-heterotypic channels as well as heteromeric-homotypic and heteromeric-heterotypic channels. This has implications for the impulse propagation in specific areas of the heart. [ABSTRACT FROM AUTHOR]

Published

2004

8. Gap junction alterations in human cardiac disease

Author

Severs, Nicholas J., Coppen, Steven R., Dupont, Emmanuel, Yeh, Hung-I, Ko, Yu-Shien, and Matsushita, Tsutomu

Subjects

GAP junctions (Cell biology), CONNEXINS, HEART diseases, MEMBRANE proteins

Abstract

Gap junctions, assembled from connexins, form the cell-to-cell pathways for propagation of the precisely orchestrated patterns of current flow that govern the regular rhythm of the healthy heart. As in most tissues and organs, multiple connexin types are expressed in the heart; connexin43, connexin40 and connexin45 are found in distinctive combinations and relative quantities in different, functionally specialized subsets of cardiomyocyte. Alterations of gap junction organization and connexin expression are now well established as a consistent feature of human heart disease in which there is an arrhythmic tendency. These alterations may take the form of structural remodelling, involving disturbances in the distribution of gap junctions and/or alteration of the amount or type of connexin(s) expressed. In the diseased ventricles, the most consistent quantitative alteration involves heterogeneous reduction in connexin43 expression. In the atria, features of gap organization and connexin expression have been implicated in the initiation of atrial fibrillation and, once the condition becomes chronic, gap junction alterations associated with remodelling may contribute to persistence of the condition. By correlating data from studies on the human patient with those from animal and cell models, alterations in gap junctions and connexins have emerged as important factors to be considered in understanding the pro-arrhythmic substrate found in a variety of forms of heart disease. [Copyright &y& Elsevier]

Published

2004

9. Development of a Cell Model for Functional and Structural Analysis of Connexin Co-Expression: Achieving Homogeneous and Inducible Expression of Multiple Connexins in Stable Transfectants.

Author

Halliday, Deborah, Dupont, Emmanuel, Coppen, Steven R., and Severs, Nicholas J.

Subjects

*GENETIC regulation, *ECDYSONE, *GREEN fluorescent protein, *CONNEXINS, *GAP junctions (Cell biology), *CELLS

Abstract

We set out to develop an in vitro cell model in which connexins 43, 40 and 45 are co-expressed in the same combinations as found in different sub-types of cardiomyocyte in vivo , using inducible promoters of the Tet-Off and Ecdysone systems. In initial studies, a heterogeneous pattern of gene expression was observed. To achieve homogeneous expression, an Internal Ribosome Entry Site (IRES) sequence was employed, ensuring that a single mRNA coded for connexin and antibiotic resistance. We then constructed plasmids that combine the inducibility of the Tet-Off and Ecdysone systems with the homogeneous expression given by the IRES constructs. These were demonstrated to give inducible and homogeneous expression. By using the reporter gene, Enhanced Green Fluorescent Protein (EGFP), it was further shown in the Tet-Off system that expression of the transfected gene was modulated homogeneously in all cells when induction was repressed. The cell model is now at a suitable stage of development for investigation of the functional correlates of the distinctive connexin co-expression found in different regions of the heart. [ABSTRACT FROM AUTHOR]

Published

2003

10. Human connexin31.9, unlike its orthologous protein connexin30.2 in the mouse, is not detectable in the human cardiac conduction system

Author

Kreuzberg, Maria M., Liebermann, Marcus, Segschneider, Sara, Dobrowolski, Radoslaw, Dobrzynski, Halina, Kaba, Riyaz, Rowlinson, Giselle, Dupont, Emmanuel, Severs, Nicholas J., and Willecke, Klaus

Subjects

*CONNEXINS, *HEART conduction system, *HEART cells, *GENE expression, *IMMUNOGLOBULINS, *IMMUNOFLUORESCENCE, *GAP junctions (Cell biology), *LABORATORY mice

Abstract

Abstract: In the human heart connexin(Cx)40, Cx43 and Cx45-containing gap junctional channels electrically couple cardiomyocytes, forming a functional syncytium. In the mouse heart, additionally, Cx30.2-containing gap junctions have been detected in the atrioventricular node where they are implicated, together with Cx45, in impulse delay. However, whether the human ortholog of Cx30.2, Cx31.9, is expressed in the human heart has not previously been investigated. We therefore generated Cx31.9 specific antibodies to test for the expression of Cx31.9 in the human heart. These antibodies recognized the Cx31.9 protein in HeLaCx31.9 transfectants by immunofluorescence and immunoblot analyses. However, we did not find punctate Cx31.9 specific immunofluorescence signals in the working myocardium or in the impulse generation and conduction system of adult or fetal human heart. Complementary immunoblot analyses did not reveal Cx31.9 protein in the adult atrial or ventricular myocardium. We conclude that the Cx31.9 protein, unlike its counterpart in the mouse, is not expressed in detectable quantities and is thus unlikely to contribute to the impulse generation and conduction system or the working myocardium of the human heart. [Copyright &y& Elsevier]

Published

2009

11. Up-regulation of connexin43 correlates with increased synthetic activity and enhanced contractile differentiation in TGF-β-treated human aortic smooth muscle cells

Author

Rama, Aisha, Matsushita, Tsutomu, Charolidi, Nicoletta, Rothery, Stephen, Dupont, Emmanuel, and Severs, Nicholas J.

Subjects

*CONNEXINS, *SMOOTH muscle, *GAP junctions (Cell biology), *CELL communication

Abstract

Abstract: Up-regulation of the gap-junctional protein connexin43 (Cx43) in arterial smooth muscle cells (SMCs) features in response to injury and in atherosclerosis, in parallel with phenotypic transition to the synthetic state. TGF-β1 is known to have a role in SMC differentiation and extracellular matrix (ECM) synthesis, key characteristics of phenotypic state. Here, we set out to examine the effects of TGF-β1 on Cx43-gap junction expression in relation to SMC differentiation, ECM synthesis and growth. Cx43 expression was analysed by immunoconfocal microscopy and Western blotting in primary human aortic SMCs treated with TGF-β1 over a 48-h period, with assessment of gap-junctional communication by cell-to-cell transfer of microinjected ethidium bromide. In parallel, synthetic activity was analysed by Northern blotting for ECM components α-1(I) and α1(III) procollagen transcripts, contractile differentiation was assessed by immunoconfocal microscopy and Western blotting of the markers smooth muscle α-actin, calponin and smooth muscle heavy chain isoform 1 (SM1), and growth was measured by BrdU incorporation. Our results demonstrate that TGF-β1 significantly up-regulates Cx43 expression and intercellular communication, in concert with increased expression of α-actin, calponin and SM1. Concomitant with contractile protein expression, ECM synthesis was increased rather than decreased, TGF-β1 inducing a significant up-regulation of both procollagen transcripts. These effects were independent of growth. We conclude that in human aortic SMCs, TGF-β1 treatment leads to up-regulation of Cx43-mediated gap-junctional communication and increased synthetic activity yet, somewhat paradoxically, also enhanced contractile differentiation. [Copyright &y& Elsevier]

Published

2006