Karen Maass scite author profile

Abstract-Desmosomes and gap junctions are distinct structural components of the cardiac intercalated disc. Here, we asked whether the presence of plakophilin (PKP)2, a component of the desmosome, is essential for the proper function and distribution of the gap junction protein connexin (Cx)43. We used RNA silencing technology to decrease the expression of PKP2 in cardiac cells (ventricular myocytes, as well as epicardium-derived cells) obtained from neonatal rat hearts.We evaluated the content, distribution, and function of Cx43 gap junctions. Our results show that loss of PKP2 expression led to a decrease in total Cx43 content, a significant redistribution of Cx43 to the intracellular space, and a decrease in dye coupling between cells. Separate experiments showed that Cx43 and PKP2 can coexist in the same macromolecular complex. Our results support the notion of a molecular crosstalk between desmosomal and gap junction proteins is an inherited disease that presents with sustained monomorphic ventricular tachycardia and sudden cardiac death. The disease is characterized by progressive fibrofatty infiltration of the myocardium, most prominent in the free wall of the right ventricle. 1 Recent studies have linked ARVC with mutations in proteins of the cardiac desmosome, 2 a component of the intercalated disc essential for mechanical coupling between cardiac cells. 3 It is estimated that as many as 70% of the mutations linked to familial ARVC are in the gene coding for plakophilin (PKP)2, 4 a 98-kDa desmosomal protein. PKP2 interacts with plakoglobin, desmoplakin, and the desmosomal cadherins via its amino terminal ("head") domain. [5][6] Loss of PKP2 destabilizes the desmosome, 7 and its genetic deletion in mice leads to rupture of the myocardial wall during the embryonic stage. 7 Loss of desmosomal integrity could lead to disruption of mechanical function in hearts afflicted with ARVC; yet, the latter does not directly explain the highly arrhythmogenic nature of the disease, particularly in cases in which lifethreatening arrhythmias occur in the absence of severe displacement of myocardium with fatty or fibrous tissue. 8 Recently, Saffitz and colleagues proposed that disruption of mechanical coupling may lead to loss of gap junctionmediated electrical communication between cells. 8 -10 This hypothesis awaits confirmation in a cellular model in which protein expression can be manipulated and intercellular communication can be assessed directly.Here, we used small interfering (si)RNA technology to silence PKP2 expression in neonatal cardiac cells, and we explored the effect of loss of PKP2 expression on the distribution and function of gap junctions. Our studies focused primarily on 2 cell populations: cardiac myocytes and epicardium-derived cells (EPDCs). Although the importance of cardiac myocytes in the context of ARVC and arrhythmias seems self-evident, a possible role for EPDCs in ARVC has not been described. Yet, as progenitors of the cardiac fibroblast cell lineage, the function of EPDCs deserves atte...

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Involvement of the Cytoplasmic C-Terminal Domain of Connexin43 in Neuronal Migration

Cina

Maass²,

Theis³

et al. 2009

J. Neurosci.

140

146

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During brain development, young neurons closely associate with radial glial while migrating from the ventricular zone (VZ) to the cortical plate (CP) of the neocortex. It has been shown previously that gap junctions are needed for this migration to occur properly, but the precise mechanism responsible is still in question. Here, we used Cre recombinase, driven by the nestin promoter, to conditionally knock-out a floxed coding DNA of the connexin43 (Cx43) gene in mice. Radial glia in the VZ normally express connexin43. They undergo divisions that produce neurons and astrocytes and serve as migratory guides for the daughter cells that they produce. Based on histological analysis, we suggest that removing Cx43 from radial glia alters the normal lamination of the mouse neocortex. To monitor newborn neurons during development, we introduced a plasmid containing green fluorescent protein driven by a neuronal (T␣1 tubulin) promoter into the embryonic neocortex using in utero electroporation. The transfected migrating neurons remain in the VZ/intermediate zone (IZ) of the Cx43 conditional knock-out (Cx43cKO) animals, whereas in Cx43fl/fl mice, neurons migrate through the IZ into the CP, indicating that deletion of Cx43 from nestin-positive cells disrupts neuronal migration. We were able to rescue migration of Cx43cKO neurons by electroporating a cytomegalovirus-Cx43 expression plasmid into the embryonic cortex. In contrast, a C-terminal truncated form of Cx43 failed to rescue neuronal migration. In addition, Cx43K258stop mice, in which Cx43 lacks the last 125 amino acid residues of the cytoplasmic C-terminal domain, gave results similar to those seen with the Cx43cKO mice. This study illustrates that deletion of the C-terminal domain of Cx43 alters neuronal migration in the neocortex.

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Defective Epidermal Barrier in Neonatal Mice Lacking the C-Terminal Region of Connexin43

Maass

Ghanem

Kim

et al. 2004

MBoC

127

145

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Connexin43 modulates neutrophil recruitment to the lung

Sarieddine¹,

Scheckenbach²,

Foglia³

et al. 2009

J Cellular Molecular Medi

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Transmigration of neutrophils through the microvascular endothelium is a cardinal event of acute inflammation. It has been suggested that gap junctions made of connexin43 (Cx43) may serve as a conducting pathway to spread inflammatory signals within the lung capillary network. To determine whether Cx43 contributes to neutrophil transmigration in vivo, the number of transmigrated neutrophils was monitored in lungs of Cx43 mouse models subjected to inflammation by intratracheal instillations of Pseudomonas aeruginosa lipopolysaccharide (LPS). Cx43 was detected in inflamed lungs independently of neutrophil recruitment, whereas Cx43 up-regulation was not detected in mice genetically protected from inflammation. Mice heterozygous for the Cx43 gene (gja1) showed a 56% (P < 0.01) reduction in airway neutrophil count. In contrast, increased (P < 0.05) neutrophil recruitment in response to LPS was observed in a mouse model expressing a mutant Cx43 with enhanced channel conductivity. In vitro adhesion assays showed that reduced conductivity of Cx43 channels with 43Gap26, a Cx43 blocking peptide, decreased adhesion of neutrophils to endothelial cells. Finally, we found that instillation of 43Gap26 in inflamed lungs reduced neutrophil transmigration by 65% (P < 0.05). These results indicate that inflammatory mediators up-regulate alveolar Cx43 to promote neutrophil recruitment to the airspace. Cx43 may therefore represent a pharmacological target in lung diseases characterized by excessive neutrophil recruitment to the airways.

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C-Terminal Truncation of Connexin43 Changes Number, Size, and Localization of Cardiac Gap Junction Plaques

Maass

Shibayama

Chase

et al. 2007

Circulation Research

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Abstract-Haplodeficient mice expressing carboxyl-terminally truncated Cx43 (K258stop/KO), instead of the wild-type Cx43 isoform, reach adulthood and reveal no abnormalities in heart morphology. Here, we have analyzed the expression of K258stop protein and the morphology of gap junctions in adult hearts of these mice. Coimmunofluorescence analysis revealed reduced juxtaposition of K258stop with other junctional proteins at the intercalated disc. Immunoprecipitation studies documented changes in the interaction with previously described Cx43 binding proteins. Quantitative transmission electron and confocal microscopy confirmed the localization of K258stop gap junctions to the periphery of the intercalated disc and further revealed an increase in the size of K258stop gap junction plaques and a reduction in their number. Dual whole cell patch clamp analysis confirmed that K258stop gap junctions were functional, with single channel properties similar to those described in exogenous systems. We conclude that the carboxyl-terminal domain of Cx43 (Cx43CT)

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The Connexin43 C-Terminal Region Mediates Neuroprotection During Stroke

Kozoriz

Bechberger

et al. 2010

J Neuropathol Exp Neurol

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Connexin43 plays an important role in neuroprotection in experimental stroke models; reducing the expression of this gap junction protein in astrocytes enhances injury upon middle cerebral artery occlusion (MCAO). Because the C-terminal region of connexin43 isimportant for channel activity, we carried out MCAO stroke experiments in mice expressing a truncated form of connexin43 (Cx43DeltaCT mice). Brain sections were analyzed for infarct volume, astrogliosis, and inflammatory cell invasion 4 days after MCAO. Adult cortices and astrocyte cultures were examined for connexin43 (Cx43) expression by immunohistochemistry and Western blot. Cultured astrocytes were also examined for dye coupling, channel conductance, hemichannel activity, and Ca wave propagation. The Cx43DeltaCT mice exhibit enhanced cerebral injury after stroke. Astrogliosis was reduced and inflammatory cell invasion was increased inthe peri-infarct region in these mice compared with controls; Cx43 expression was also altered. Lastly, cultured astrocytes from Cx43DeltaCT mice were less coupled and displayed alterations in channel gating, hemichannel activity, and Ca wave properties. These results suggest that astrocytic Cx43 contributed to the regulation of cell death after stroke and support the view that the Cx43 C-terminal region is important in protection in cerebral ischemia.

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Connexin43 contributes to electrotonic conduction across scar tissue in the intact heart

Mahoney

Mezzano

Mirams

et al. 2016

Sci Rep

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Studies have demonstrated non-myocytes, including fibroblasts, can electrically couple to myocytes in culture. However, evidence demonstrating current can passively spread across scar tissue in the intact heart remains elusive. We hypothesize electrotonic conduction occurs across non-myocyte gaps in the heart and is partly mediated by Connexin43 (Cx43). We investigated whether non-myocytes in ventricular scar tissue are electrically connected to surrounding myocardial tissue in wild type and fibroblast-specific protein-1 driven conditional Cx43 knock-out mice (Cx43fsp1KO). Electrical coupling between the scar and uninjured myocardium was demonstrated by injecting current into the myocardium and recording depolarization in the scar through optical mapping. Coupling was significantly reduced in Cx43fsp1KO hearts. Voltage signals were recorded using microelectrodes from control scars but no signals were obtained from Cx43fsp1KO hearts. Recordings showed significantly decreased amplitude, depolarized resting membrane potential, increased duration and reduced upstroke velocity compared to surrounding myocytes, suggesting that the non-excitable cells in the scar closely follow myocyte action potentials. These results were further validated by mathematical simulations. Optical mapping demonstrated that current delivered within the scar could induce activation of the surrounding myocardium. These data demonstrate non-myocytes in the scar are electrically coupled to myocytes, and coupling depends on Cx43 expression.

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Expression and function of connexins in the epidermis, analyzed with transgenic mouse mutants

Kretz

Maass

Willecke

2004

European Journal of Cell Biology

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Karen Maass

Connexin43 Remodeling Caused by Inhibition of Plakophilin-2 Expression in Cardiac Cells

Involvement of the Cytoplasmic C-Terminal Domain of Connexin43 in Neuronal Migration

Defective Epidermal Barrier in Neonatal Mice Lacking the C-Terminal Region of Connexin43

Connexin43 modulates neutrophil recruitment to the lung

C-Terminal Truncation of Connexin43 Changes Number, Size, and Localization of Cardiac Gap Junction Plaques

The Connexin43 C-Terminal Region Mediates Neuroprotection During Stroke

Connexin43 contributes to electrotonic conduction across scar tissue in the intact heart

Expression and function of connexins in the epidermis, analyzed with transgenic mouse mutants

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